JP2010216246A - Engine integrating various energy conservation cycle - Google Patents

Abstract

<P>PROBLEM TO BE SOLVED: To provide an engine to target 12 thousand times of power generation quantity with a liquid indium gravity force solar heat power generation. <P>SOLUTION: Two kinds of vertical all moving blade liquid indium gravity force solar heat turbines are driven by superheated vapor acceleration of liquid indium+compressed air acceleration of liquid indium respectively in the liquid indium gravity force solar heat power generation. Atmospheric pressure same speed same volume power becomes 12 thousand times of existing steam turbine power generation. Generation power of the liquid indium speed turbine drive with increased head of 1000 m or the like as gravity acceleration is increased. Power generation quantity is made 10 times or the like of the existing world by operation of the liquid indium 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 earth's maximum acceleration is gravity acceleration and the maximum amount of heat is sunlight. Therefore, as the theoretical best engine of use divided into heat quantity and mass, vertical type all blade liquid indium gravity solar thermal turbine 8G2 type, solar heater 2 and solar thermal augmentation suspension bridge 2b for maintaining the right angle to sunlight, solar heater 2 is inclined and rotated on the water surface to maximize the two-direction right-angled irradiation time of sunlight, and similarly, the solar thermal augmentation suspension bridge 2b is also inclined and rotated on land to solar-heat the intake air passage 28A air, and repeatedly 800 by the heat pump 1G. Compressive heat is recovered to ~ 1200 ° C, 300 ° C ~ 24 ~ 400MPa compressed air 28a mass + 500 ° C ~ 24 ~ 400MPa superheated steam divided into 50 calories and used, all types of rotor blade liquid indium gravity solar heat turbine 8G as much as possible As liquid power increase with a drop by providing in multiple stages, liquid indium containing alloy can be 2 In the process of heat retention mass turbine injection, optimum temperature liquid indium is injected in the process of heat retention mass turbine, acceleration of gravity acceleration is added to heat retention inside turbine, acceleration air 28a volume is increased by mass of compressed air 28a around 300 degrees In order to increase acceleration and increase rolling contact rotational power of liquid indium, liquid indium is injected at an optimum temperature of 400 MPa in the process of driving the heat retention heat turbine, and the liquid indium injection pump is injected at 50 MPa etc. The experimental best liquid indium temperature control gravity solar thermal power generation technology, which accelerates inside and drives two types of wing-shaped full blade liquid indium gravity solar thermal turbine 8G.

  The use of steam of 500 degrees or more has been put to practical use in existing steam turbines, and a liquid with a large weight and surface tension at 500 degrees or less is considered as the theoretical best power increase sphere 2E, and mercury, liquid lead, liquid bismuth and liquid containing alloys Choose from tin, liquid cadmium, liquid indium, liquid gallium, liquid zinc, liquid thallium, liquid metal and water in order. Using surface tension and specific gravity of liquid indium less than 500 degrees, low cost and resources as weapons etc. The same amount of volumetric pressure work force kg weight m / sec, the existing steam turbine power generation 1700 × 7.31 = 120,000 times liquid indium power generation amount, compressed air mass utilization of heat utilization utilizing two types of vertical The horizontal axis 1h is provided between the heat retention turbines of liquid metal heat retention temperature control in the process of increasing the drop by driving the rotor blade liquid indium gravity solar thermal turbine 8G to be provided in multiple stages without limit as much as possible. The horizontal axis 1h generator 1 and the horizontal axis 1h heat pump 1G are driven outside the turbine outer box 77a to alternate the rotational directions of the two types of wing-type full blade liquid indium gravity solar thermal turbine 8G to offset vibration and noise Allows recovery of solar power and the amount of power generation of liquid indium including alloys, gravity solar power generation, and in the process of exhausting, the exhaust heat of the heat retention heat turbine is cooled by the exhaust of the heat retention mass turbine, and the compressed air 28a exhaust is brought to low pressure and low temperature. The heat pump 1G makes the compression cycle close to 1,200 ° C and heat is recovered, and heat recovery is transferred to the experimental best engine including resource amount, seawater temperature rise 0CO2 exhaust 0 fuel cost 0 aim at infinite power generation amount and thermal and cold heat recovery amount , Gravity solar thermal technology.

  In order to prevent the follow-up engine invention, existing engines are thoroughly replaced with theoretical best engines in high schools and universities, and the unit of output and work rate is kg-weight m / sec etc. when returning to elementary school science and considering theoretical best engines Because of the weight x speed, the rotational power generation is the theoretical best engine at high speed with heavy materials. Furthermore, the 7% rise in sea surface temperature of thermal power nuclear power generation has no effect on the environment, which is also obvious, and continues 7% rise in sea surface temperature for 100 years, and even if CO2 emissions are reduced by nuclear power generation, As the temperature rises 7 degrees and the area grows by 10%, it exceeds 1000 times, and so the ice on the land and the sea approaches 0 as the Antarctic ice approaches 0 as a 300 m / s typhoon or seasonal wind 10 times the wind and heavy rain. There is a background where humanity is extinct. In thermal power nuclear power generation, the sea surface temperature rise of 7 degrees has no effect on the environment, and seaweeds and fish in the waters near Japan are in fact close to extinction. Also, there is a report that the satellite's observation of the 2007 Arctic Ocean ice area is observed 40 years after the IPCC Fourth Report, because the IPCC Arctic forecast also has a 7-degree sea surface temperature rise outside the computer calculation. It is good to think that it is a big false alarm, abnormal weather is difficult even if the temperature rises by 1 degree on average, and 90% rise in the sea surface temperature by 7 degrees, sea surface temperature rises 2 to 3 times in 100 years 14 ~ There is a background that a 21 ° ascent region approaches Antarctica, Antarctica ice approaches 0, and sea level rise approaches 77m.

  Since the unit of output and work rate is kg weight m / sec isoweight x velocity, it is theoretically the best engine to generate rotational output by accelerating a gravitational substance with a heavy substance, but there is no background for thinking about it. Therefore, we use gravity solar thermal power generation of 0 fuel liquid indium and use 120,000 times the liquid pressure with the atmospheric pressure and the same volume work volume kg kgm / s liquid mercury, liquid lead, liquid bismuth, liquid tin, liquid When using liquid metal such as cadmium, liquid indium, liquid gallium, liquid zinc, water, liquid thallium, etc. to accelerate gravity acceleration downward, output generation significantly increases even if gravity acceleration is accelerated rather than an input that increases the drop at low speed. As the power added with explosive power, there is a background that can increase the power as much as possible by increasing the number of turbines and increasing the head to 1000 m or more. The maximum acceleration on the earth is close to infinity by the gravitational acceleration, and the theoretical best engine gravity solar power of sea water temperature rise 0, CO2 exhaust 0 and fuel cost 0 is exhausted, as limited resources such as fossil fuel are exhausted. Thermal energy and cold energy recovery means to leave to descendants With infinite and almost infinite power generation, gravity solar thermal power storage battery driven and electrically driven, various cars such as various car types, various ship types such as full power electrification homes, etc. There is a background that can be obtained cheap storage battery drive of electricity generation and global warming prevention of the electric drive.

  Decided to invent the theoretical best engine in 1965. In fact, it began to improve and started trial production at the contract of the Okayama regional invention center in 1955, and continued trial production on its own, but trial production of the engine is very difficult. . Therefore, we started asking for a large number of large domestic companies to cooperate from February 1982. However, there is no cooperation from Japanese companies, etc. The cooperation of President Clinton who only asked foreign countries is obtained three or three times every request. The useless inventions of 1992 US Patent 5133305, 1993 US Patent 5230307 and 1995 US Patent 5429078 have been found. There are many fatal defects in the existing engine, and it turns out that it is impossible to improve the invention, and in a hurry and opens the 1997 home page, one defect patent application is filed and the 2008 theoretical best engine is reached For example, with the cooperation of the former president, the generator and heat pump can be driven at a fuel cost of 0 by gravity solar thermal power generation to enable extremely inexpensive manufacture of nearly infinite electricity, heat and cold, and liquid metal power generation at 500 ° C or less I would like to shift the atmospheric pressure same speed same volume work rate to 1 to 23,000 times of existing steam turbine power generation and to experiment and shift to the experiment best engine.

U.S. Pat. No. 6,119,650, Chinese Patent No. 8818, EU British Patent No. 902175, U.S. Pat. No. 6,263,664, the above-mentioned many background techniques are improved, or the invention of the process of the invention of U.S. Pat. There is an invention that aims for the best.

As prior applications, Japanese Patent Application Nos. 2007-179204, 2007-221970, 2007-237367, 2007-250348, 2007-265115, 2008-6612, 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 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. 2008-169979 Japanese Patent Application No. 2008-173046, Japanese Patent Application No. 20 8-174231, Japanese Patent Application No. 2008-178700, Japanese Patent Application No. 2008-179872, Japanese Patent Application No. 2008-181052, Japanese Patent Application No. 2008-182325, Japanese Patent Application No. 2008-18675, Japanese Patent Application No. 2008-188165, Japanese Patent Application No. 2008 -202677, Japanese Patent Application 2008-203842, Japanese Patent Application 2008-206632, Japanese Patent Application 2008-209497, Japanese Patent Application 2008-214912, Japanese Patent Application 2008-229434, Japanese Patent Application 2008-231842, Japanese Patent Application 2008- No. 243690, Japanese Patent Application No. 2008-245061, Japanese Patent Application No. 2008-249719, Japanese Patent Application No. 2008-256006, Japanese Patent Application No. 2008-266020, Japanese Patent Application No. 2008-269294, Japanese Patent Application No. 2008-282825, Japanese Patent Application No. 2008-288411 No. 2008, Japanese Patent Application No. 2008 No. 90630, Japanese Patent Application No. 2008-295174, Japanese Patent Application No. 2008-299091, Japanese Patent Application No. 2008-305951, Japanese Patent Application No. 2008-319210, Japanese Patent Application No. 2008-327045, and Japanese Patent Application No. 2009-011656 aiming at the best of experiments Japanese Patent Application No. 2009-013856, Japanese Patent Application No. 2009-015027, Japanese Patent Application No. 2009-01624, Japanese Patent Application No. 2009-021161, Japanese Patent Application No. 2009-022247, Japanese Patent Application No. 2009-023345, Japanese Patent Application No. 2009-024512, Japanese Patent Application There is the 2009-025684 issue.

  In existing thermal power nuclear power plants in the world, accelerating CO2 global warming and increasing sea surface temperature by 7 degrees centigrade to 1000 times in 100 years in the sea area is impossible for the natural phenomenon of supplying nutrients to the sea surface cooling seabed in winter As the phytoplankton, seaweeds and corals are drastically reduced, the food chain of fish is drastically reduced by the food chain, and the number of fish in the fish is drastically reduced. For example, there is a task of preventing global warming and delaying the extinction of humanity, for example, typhoons and seasonal winds make 300m / sec etc. and food production on land also becomes difficult at an accelerating rate, and the danger of human extinction is increased. Burning a large amount of fossil fuels will cause global warming and depletion of resources, so fossil fuel combustion needs to be kept to a minimum and there are issues left for offspring.

Gravity solar thermal power generation, which is gradually transferred from theoretical best engine to experimental best engine, increases the recovery and utilization of heat and cold from the sun as much as possible, leaving limited petroleum resources, etc., to CO2 and leaving them to their offspring as important resources. At the same time, global warming is prevented to prevent flooding, sea level rise and typhoon and the increase of monsoon wind, and nutrients such as cold heat oxygen and nitrogen are supplied to the sea floor to multiply phytoplankton, seaweeds, corals and fish etc. Food production of the existing world by more than 10 times the power of the existing world, the existing world's thermal power nuclear power plant will be totally abolished gravity solar thermal power generation, storage battery drive various gravity of solar power generation of gravity solar power generation Drive to the full power electrification house, plant electrification peak, heat and cold heat utilization peak, generate electricity with sea water temperature rise 0, CO2 exhaust 0 and fuel cost 0, prevent global warming and kill humanity 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 sea water temperature rise 0 fuel cost 0 in a floating all-rotor gravity solar heat turbine, gravity solar power generation, for example, liquid indium gravity solar power generation, atmospheric pressure same speed same volume work power kg weight m / s existing 12,000 times the amount of power generation of steam turbine power generation, 10 times the amount of power generation of the existing world, and various motor vehicles driven by gravity solar thermal power storage battery, various ships powered by battery, and full electrified housing , The existing world's thermal power nuclear power plant completely abolished CO2 exhaust 0 Sea surface temperature rise 0, global warming prevention Sea water temperature rise 0 It has the effect of putting off humanity extinction.

Explanatory view of a calorific-powered all-rotor all-blade gravity solar heat turbine 8G (Example 1) Explanatory drawing of a mass drive cage-type all moving blade gravity solar thermal turbine 8G (Example 2) Explanatory drawing of the sunlight heater 2 (Example 3) Explanatory drawing of the solar heat increase suspension bridge 2b (Example 4)

  The embodiments and examples of the invention will be described with reference to the drawings, but the same names and symbols are given to parts substantially the same as the ones in the embodiments and examples described above. It will be omitted as much as possible, and the characteristic parts and the inexplicable parts will be sequentially added and explained. In addition, although the idea is explained with hypothesized numbers in order to clearly explain the intended purpose and prediction specifically for the extremely difficult brain theory best engine invention, the correct answer is the experimental number of the theoretical best engine as the experimental number. Not limited to The idea that seems to be the best is redundantly explained in many applications, and the idea is selected and used according to the application, and the claim is made into a variety to select and use according to the versatility, and the theoretical best engine is shifted to the experimental best engine sequentially In order to emphasize the experimental results, the number of filing claims will be reduced as the elements of the filing will be interchanged.

  In the calorific-driven liquid indium gravity solar thermal power generation of FIG. 1, a turbine that thermally insulates and heats a calorific-driven, wing-type all-in-wing liquid indium gravity solar thermal turbine 8G among two types equipped with a calorific drive of compressed air and a mass-driven heat retention device. A thrust bearing 80a and a bearing 80 are provided in the outer case 77a in multiple stages vertically such as 1 to 120 stages to support the weight, and the suction air 28a is heated by sunlight, the long lens 2d and the heat absorbing material 2B. Suction and compression multiple times by heat pump 1G multiple times to 800-1200 degrees, heat recovery to 300-400 degrees around multiple times, around 200 degrees 24 to 400 MPa compressed air 28a mass + around 500 degrees 24 to 400 MPa superheated steam 50 calories In the process of using heat storage driven whole wing liquid indium gravity solar thermal turbine 8G, using divided storage, increase ball rise with heat retention device inside the turbine outer box The liquid indium containing the alloy is raised and stored at the top by the device 2F, and the superheated steam 50 is released by dividing and storing the power increasing means 2D, and simultaneously the liquid indium 2E containing the alloy is injected 400 MPa by the liquid indium jet pump 6I. Then, the calorific-driven vertical-type full moving blade liquid indium gravity solar thermal turbine 8G is driven, the horizontal axis 1h is provided between the heat retaining calorific turbines, the generator 1 and the heat pump 1G are driven outside the turbine outer box 77a, and the turbine 8G is The direction of rotation is alternated to offset vibration and noise, and vibration and noise are minimized to prevent global warming.

The calorific-driven all-rotor all-rotor liquid-indium gravity 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 liquid indium. The horizontal axis 1h for driving 1G is provided with a through hole, and the generator 1 and the heat pump 1G are driven outside the turbine outer box 77a thermally insulated and heated, and the calorifically driven wing-shaped full blade liquid indium gravity solar heat turbine 8G The injection speed of the liquid indium injection pump 6I containing the alloy is driven by superheated steam 50 acceleration to make the maximum speed of liquid indium by gravity acceleration, and the atmospheric pressure same speed same volume work ratio kg weight m / s the existing steam turbine power generation 120,000 times and inject into turbine blade cross section 4X which is 2 to 26 times the cross sectional area of the existing turbine blade cross section, and generate the rolling contact rotational power of the large wing surface with increased strength In the process of exhausting, the heat retention mass turbine exhaust 28a of the condenser 2a is sucked with a heat pump, and the superheated steam 50 is cooled to a low pressure and a low temperature with a huge number of heat pumps 1G to be condensed water 52a. The condenser 2a is evacuated and liquid indium is raised and stored at the top with the expansion ball lifter 2F with a heat storage device, and the seawater temperature rise 0CO2 exhaust 0 fuel cost 0 power generation, the existing thermal power generation amount is 0 We will use global warming prevention power generation.

  In the mass drive liquid indium gravity solar thermal power generation of FIG. 2, of the two types equipped with a thermal energy drive of compressed air and a mass drive heat retaining device, a mass drive wing-type full bucket liquid indium gravity solar thermal turbine 8G is used as a turbine outer box 77a. A thrust bearing 80a and a bearing 80 are provided by providing the thrust bearing 80a and the bearing 80 to support the weight vertically by heating the suction air 28a with sunlight, the long lens 2d and the heat absorbing material 2B, and a plurality of heat pumps Multiple suction suction compression multiple times in 1G multiple times to 800-1200 degrees, multiple heat recovery around 300-400 degrees, divided storage into about 200 degrees 24 to 400 MPa compressed air 28a mass + 500 degrees around 24 to 400 MPa superheated steam 50 calories In the process of mass-driven vertical-type full blade liquid-indium gravity solar thermal turbine 8G drive, the liquid containing the alloy by the increase ball lifter 2F with the heat retention device Indium is raised and stored at the top, and the mass of the compressed air 28a which splits and stores the power increasing means 2D is injected, and at the same time liquid indium 2E containing the alloy is injected 400MPa by the liquid indium injection pump 6I, mass driven vertical The entire moving blade liquid indium gravity solar thermal turbine 8G is driven, the horizontal shaft 1h is provided between the heat retaining turbines, the generator 1 and the heat pump 1G are driven outside the turbine outer box 77a, and the rotational directions of the turbine 8G are alternated. It offsets vibration and noise, and reduces vibration and noise to prevent global warming.

The mass-driven saddle-shaped full bucket liquid indium gravity 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 liquid indium, and a generator 1 and a heat pump are provided for the gravity acceleration unit 1g. A mass-driven saddle-type full blade liquid indium gravity solar thermal turbine 8G is provided with a horizontal axis 1h through hole for driving 1G, and driven outside the turbine outer box 77a thermally insulated and maintained the generator 1 and the heat pump 1G. The injection speed of the liquid indium injection pump 6I is driven by the compressed air 28a acceleration to make the liquid indium speed of the compressed air speed by gravity acceleration, and the atmospheric pressure same speed same volume work ratio kg weight m / s 1 of the existing steam turbine power generation .Increase the rolling contact and compressed air of the large blade surface by increasing the strength by injecting it to the turbine blade cross section 4X which is made 2 to 26 times the cross sectional area of the existing turbine blade by 20,000 times As the rotational output increase, the compressed air exhaust of the heat retaining mass turbine is made into suction low pressure low temperature air by a huge number of heat pumps 1G proportional to the number of turbines, and the rotational power is increased as suction low pressure low temperature, and exhaust superheated steam of the heat retaining heat source turbine Heat recovery, increase the amount of high pressure compression heat recovery repeatedly with heat pump 1G, increase power of seawater temperature 0CO2 exhaust 0 fuel cost 0 power generation, reduce the existing thermal power generation amount to 0 and prevent global warming .

  The sunlight heater 2 shown in FIG. 3 utilizes various water surfaces and collects sunlight of the maximum amount of heat of the earth in a straight line by the long lens 2d to make the heat absorbing material 2B temperature 500 degrees etc. The width of the long lens 2d is 10m etc. Increase intake air path 28A air 28a temperature at fuel cost 0, increase temperature by 3 days in 1 day etc., make it possible to select and use all the existing lens cross sections, and linearly extend the selected lens cross sections The solar light is collected in a straight line so that all lens materials can be selected and used, and a heat insulating material 2c such as foamed plastic is enclosed by a semi-cylindrical outer box 77B to provide a long cylinder such as a cylinder. Heat the air 28a with a plate-like heat-absorbing material 2B that heats up to a high temperature with solar heat by providing the heat-resistant material 2A on the top, and a plurality of wide long lenses 2d such as wide and large long Can be extended by the joint 80A in the longitudinal direction In the case of 180-degree change of direction, the U-shaped air pipes are connected in parallel, and the sunlight heater 2 is made perpendicular to the sunlight rotating 180 degrees from east to west on the water. As a device to maintain and rotate, the air 28a is heated to enable suction and compression 600 to 1200 degrees multiple times by the heat pump 1G, and the air can be reduced in size and size by making it possible to reduce the size and size of the solar heater 2. 1 Drive the compression heat recovery unit 2C.

  The solar heat augmentation suspension bridge 2b shown in FIG. 4 uses a variety of lands and forms a semicircular rectangular shape in the same manner as the above, and at the time of extension, plurals are further tightened and sealed in the width direction with fasteners 80B. Vertically move the upper part and left and right of the hanging tool left 2f hanging tool right 2g up and down, move and rotate the lower part to align the solar heat augmentation suspension bridge 2b with the moving direction of sunlight as the rotating two directions always right angle reception The amount of sunlight is linearly collected by the long lens 2d, and the width of the long lens 2d of the apparatus for heating the air 28a is increased to 10 m and the plate-like heat absorbing material 2B temperature is set to 500 degrees etc. A plate-like heat absorbing material which raises the temperature of the passage 28A air 28a at a fuel cost 0, encloses the heat insulating material 2c with a rectangular outer box 77B to provide a long box, and provides the heat resistant material 2A therein to make the temperature high by solar heat 2B equipped air 28a is heated, a plurality of wide wide long large lenses such as the upper part d is provided in a sealed vacuum and heat insulating manner by the joint 80A + fastener 80B, and can be extended by the joint 80A in the longitudinal direction, and in the case of 180 ° turning, the suction air path 28A is connected by U-shaped pipes Are installed parallel to each other, and the land is rotated 180 degrees from east to west on land, and the solar heat augmentation suspension bridge 2b is a device that rotates and tilts in two directions at right angles to sunlight. Save the divided parts into a full blade thermal energy turbine 8G + a full bucket full blade mass turbine 8G, and use the energy saving cycle to cool the thermal energy turbine exhaust with the mass turbine exhaust.

  Sea water temperature rise 0 CO 2 exhaust 0 fuel cost 0 theory The best engine ratio critical material Gravity solar thermal power generation completely abolish existing thermal power nuclear power generation as 10 times the existing world power generation amount, drive inexpensive ratio critical material gravity solar thermal power storage battery In various kinds of cars and ships, and all electrified homes and plants electrified by using electricity, transition from theoretical best engine to experimental result best engine to prevent global warming and postpone humanity extinction. There is a possibility.

  1: Generator, 1A: Mercury exhaust inspection room, 1B: Oxygen amount increasing means, 1C: Alcohol cold energy, 1D: Fuel injection pump, 1F: Water pump, 1G: Heat pump, 1H: Pumping pump, 1b: Fuel, 1c : Critical material, 1d: Mercury, 1e: Coated steel ball (coated with impact reducing means 2G) 1e: Coated mercury (coated with spherical durable material such as stainless steel or impact reducing means 2G) 1g: Gravity acceleration part, 1h: Horizontal Axis 2: Sunlight heater (tilt and rotate sun light with long lens and track) 2a: Condenser, 2b: Solar heat augmentation suspension bridge (tilt up and down the left and right of the hanger and tilt and rotate sunlight with multiple stages of long lens And tracking) 2c: heat insulating material, 2d: long lens, 2e: water surface, 2f: lifting device left, 2g: lifting device right, 2A: heat resistant material, 2B: heat absorbing material, 2C: compression heat recovery device, 2D: Output increase means 2E: Output increase Spheres (mercury, liquid lead, liquid tin, liquid bismuth, liquid cadmium, liquid indium, liquid gallium, liquid zinc, liquid thallium, liquid metal, water, platinum spheres, coated platinum spheres, gold spheres, coated gold spheres, platinum alloy spheres · 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 raising device, 2G: Impact reduction means (small diameter ball · lubrication Coatings of oils, noncombustible liquids, rubbers, plastics etc. 2H: cold heat condenser, wing-shaped solar heater, 2X: air heat exchanger, 2Y: water heat exchanger, 2Z: mercury Heat exchanger, 3: Friction loss reduction means (Reduction of friction loss by optimum use of water repellent action, heating high temperature means, coating of known technology etc.) 3A: Water repellant action (friction loss reduction means with water) 3B: Heating high temperature Measures (High temperature with existing technology such as electric resistance and electromagnetic heating) 3C: Cold heat recovery means, 3G: Water repellent action (friction loss reduction means with mercury) 4A: Turbine blade cross section (existing cross section) 4B: Turbine blade cross section Output surface curve small 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 reverse surface curvature small cross section) 4F: Turbine blade cross section (existing Opposite cross section) 4X: Turbine blade cross section (selected cross section from 4A to 4F) 5C: air exhaust chamber, 6: nozzle, 6a: nozzle injection part, 6b: nozzle injection part, 6d: nozzle injection part, 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, 7C: Screw, 8a: All moving wing ball gear gas turbine (whole blade gas turbine or whole blade mass turbine), 8b: All blade moving wheel water turbine (whole blade water turbine or whole blade calorific turbine), 8c: Turbine blade , 8d: Side plate, 8e: Cylindrical cylinder, 8E: All-wing-wheeled wheel mercury turbine (all-wing blade mercury turbine Or full blade thermal energy turbine) 8F: full blade flexible wheel gravity turbine, 8G: vertical full blade gravity solar thermal turbine (vertical full blade thermal turbine + vertical full blade mass turbine), 8K: facing in-line all series Rotor wheel ball turbine (opposed series all blade impact wheel mercury turbine opposed series all blade impact car water turbine opposed series all blade impact car gas turbine opposed series all blade impact car gravity turbine), 8L: series all blade impact ball turbine (series whole) Rotor-bolt wheel mercury turbine in-line all-blade spring-wheel water turbine in-line all-blade spring-wheel gas turbine in-line all-wheel spring-impact wheel gravity turbine) 10: Hull 10a: Expanded compression chamber 11A: Partition wall 11B: Water chamber 11C: Air Chamber, 16: Crankshaft, 21: Expanded diameter piston, 24: Combustion gas control valve, 24A: Compressed air control valve, 25: Overheated steam control valve, 25B: High temperature water control Valve 25: Intake valve 25b: Fuel control valve 28a: Air 28a: Internal air 28a: Air tube air 28b: Compressed air heat amount 28A: Intake air passage 28B: Air passage inlet 37a: Magnetize Friction car, 37b: Internally magnetized friction car, 38B: Air jet ship, 39A: Solar thermal gravity plane, 39B: Solar gravity rotary plane, 39C: Solar thermal gravity helicopter, 39D: Screw ship, 39F: Space flight, 46: Magnet Part 49: combustion gas 49B: chimney combustion gas heat amount 49C: factory use heat amount 50: superheated steam 51: air extractor 52a: water 52b: water (water whose temperature changes with sunlight) 52b: high temperature Water, 52d: Thermal, 52d: Water heat, 52d: Superheated steam, 52e: Cold, 52e: Water-cooled heat, 52e: Compressed air cold, 52e: alcohol cold heat, 52e: ice-cold heat, 55: gear-type synchronizer, 55B: magnetic friction transmission (including gear-type and water pump combined) 55Y: gear-type transmission (selected from existing transmissions) 60A: inner shaft Device, 60B: outer shaft device, 60C: inner blade group, 60D: outer shaft group, 77B: cylindrical outer box, 77a: turbine outer box, 78K: combined engine injection part, 79M: water jet, 80: bearing, 80a: Thrust bearing, 80A: Joint, 80B: Fastening tool, 81: Support shaft, 81a: Support point, 84: Double reversal magnetic friction power transmission device (including gear type and water pump combination) 84Y: Double reversal gear Device (existing technology) 94: Fixed outer box, 94A: Vertical part of outer box, 95: High temperature water reservoir, 95a: Combustion gas reservoir, 95b: Compressed air reservoir, 95A: Water absorption path, 95B: Fuel reservoir, 96A: Water supply channel, 97: Check valve, 103: Cold heat recovery device,

Claims (5000)

  Turbine blade section (4A) 2 to 26 times gravity Solar power generation Sea water temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Compress the lens width increase heating air to approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy to tilt and rotate the solar heat increase suspension bridge on land Preservation cycle union agency.   Turbine blade cross section (4B) 5 times gravity Solar power generation Sea water temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + heat retention increase Spherical lift device (2F) to use liquid indium containing ascent to save and use liquid indium + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Turbine blade cross section (4C) 6 times gravity Solar power generation Sea water temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lift device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Turbine blade cross section (4D) 7 times gravity Solar power generation Sea water temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + heat retention increase ball rise device (2F) liquid indium containing alloy in rise storage and use of long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Turbine blade cross section (4E) 8 times gravity Solar power generation Sea water temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + heat retention increase ball rise device (2F) use liquid indium containing rise in alloy + save use of long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 9-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combined engines that vertically accelerate downward and drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 10 times gravity solar power generation turbine at multiple stages with a turbine blade cross section (4A) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4B) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertically and downwards Acceleration rolling contact The power generation heat retention mass turbine and heat retention heat energy turbine are driven as + + solar heat augmentation Various energy preservation cycle combined engine which tilts rotation on land.   A structure and method for accelerating liquid indium containing alloys by vertically providing 12 times gravity solar power generation turbines with 12 times the turbine blade cross section (4C) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically downward by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold heat utilization + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that use the compressed air acceleration to heat the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combined engines that vertically accelerate downward and drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method of accelerating liquid indium containing alloy by providing 15 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat and cold utilization utilizing heat + absorption of solar light with long lens Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing alloys by vertically providing a 16-fold gravity solar thermal power generation turbine with 16 times turbine blade cross section (4A) + heat and cold utilization utilizing heat + absorption of solar light with a long lens Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertically and downwards Acceleration rolling contact The power generation heat retention mass turbine and heat retention heat energy turbine are driven as + + solar heat augmentation Various energy preservation cycle combined engine which tilts rotation on land.   Structure and method of accelerating the liquid indium containing the alloy vertically by providing 17 times of gravity solar power generation turbines with 17 times the turbine blade cross section (4B) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically downward by providing a multistage 18-fold gravity solar thermal power generation turbine with a turbine blade cross section (4C) + heat and cold heat utilization + absorption of solar light with a long lens Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that use the compressed air acceleration to heat the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4D) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 23-fold gravity solar thermal power generation turbine at a multistage turbine blade cross section (4B) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage solar power generation turbine with a turbine blade section (4C) of 24 times in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 25-fold gravity solar thermal power generation turbine at a multistage turbine blade cross section (4D) + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of doubled turbine blade cross section (4F) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with three times the turbine blade cross section (4A) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage gravity solar thermal power generation turbine with 4 times the turbine blade cross section (4B) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4C) in multiple stages + battery-driven various ships and so on + thermal expansion ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 6 times the turbine blade cross section (4D) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 7-fold gravity solar thermal power generation turbine at a multistage turbine blade cross-section (4E) + battery-powered various ships, etc. + heat retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4F) in multiple stages + battery-driven various ships and so on + thermal expansion ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4A) with a 9 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so forth + Thermal retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 10 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross-section (4C) in multiple stages + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4D) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + thermal insulation increasing ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross-section (4E) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so on 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4B) with 16 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + thermal insulation increasing ball lifter (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 17-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage 18-fold gravity solar thermal power generation turbine with a turbine blade cross section (4D) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4E) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so forth + Heat retention ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4A) + battery-powered various ships and other kind of ships + heat retention ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method for accelerating the liquid indium containing the alloy vertically downward by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships and so on 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 23-fold gravity solar thermal power generation turbine with a turbine blade cross section (4C) in multiple stages + battery-powered various ships and so on + thermal expansion ball lifter (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage solar power generation turbine with a turbine blade section (4D) of 24 times in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method for accelerating liquid indium containing alloys by vertically providing 25 times of gravity solar thermal power generation turbines with 25 times the turbine blade cross section (4E) + battery-powered various ships, etc. + heat retention increasing ball lifter (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so on + warmth increase ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4A) in multiple stages + battery-driven various ships and so on + warmer increase ball lifter (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with three times the turbine blade cross section (4B) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 4 times the turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approach the temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar power generation turbines with 6 times the turbine blade cross-section (4E) in multiple stages + heat and cold utilization utilizing heat + solar energy with long lenses Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Bring the liquid indium containing alloy up to 1200 degrees vertically to accelerate the rolling contact with the power downward to drive the heat retaining mass turbine and heat retaining heat turbine of the power generation + Various thermal energy storage cycle coalescent engines to tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar thermal power generation turbine in 7 stages of turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Bring the liquid indium containing high temperature alloy up to 1200 degrees vertically downward to accelerate the rolling contact with power generation to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various energy conservation cycle coalescence engines to tilt and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with 8 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + solar energy Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approximate 1200 ° C + Liquid indium containing alloy Heat air by compressed air acceleration of air to drive power generation heat retention mass turbine and heat retention heat energy turbine .   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine with turbine blade cross-section (4B) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4A) 14 times gravity solar power generation output generating turbine blade all + accelerate the power increase sphere (2E) to a small diameter + width increase heating air compression of long lens 1200 degrees Close to the + + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycle combined engine to tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4B) 15 times gravity solar power generation output generating turbine blade all + accelerate the power increase sphere (2E) as a small diameter + width increase heating air compression of long lens 1200 degrees Move up to + vertically accelerate the liquid indium containing high temperature alloy downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines to tilt and rotate the solar thermal suspension bridge on land.   Equipment method to make the turbine blade cross section (4C) 16 times gravity solar power generation output generating turbine blade all + accelerate the power increase sphere (2E) to a small diameter + width increase heating air compression of long lens 1200 degrees Move the liquid indium containing alloy up and down to drive the heat retaining mass turbine and heat retaining heat turbine of the power generation as vertical rolling contact with accelerated downward rolling contact + Various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Equipment method to make the turbine blade cross section (4D) 17 times gravity solar power generation output generating turbine blade all + accelerate the power increase sphere (2E) to a small diameter + width increase heating air of long lens compressed 1200 degrees Move the liquid heat containing liquid alloy including high temperature alloy vertically downward to drive the heat generation mass turbine and heat generation heat turbine of the power generation as rolling contact. + Various energy storage cycle combined engines to rotate the solar thermal suspension suspension on the land.   Equipment method to make the turbine blade cross section (4E) 18 times gravity solar power generation output generating turbine blade all + accelerate the power increase sphere (2E) to a small diameter + width increase heating air of long lens compressed 1200 degrees Move the liquid indium containing alloy to heat the air by compressed air acceleration of liquid indium to drive the power generation heat retention mass turbine and heat retention heat energy turbine + various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on the land.   Structure and method to accelerate the critical substance vertically by providing 19 times of gravity solar thermal power generation turbines with 19 times of turbine blade cross section (4F) + width of long lens driven by accelerating turbine with small diameter of power increase ball (2E) Compresses the air of increased heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + combine various energy storage cycles to tilt and rotate the solar heat augmentation suspension bridge on land organ.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4A) + width of the long lens to drive the accelerating turbine with a small diameter of the power increase ball (2E) Compress the air for increased heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat augmentation suspension bridge on land Coalition agency.   Structure and method to accelerate the critical substance vertically by providing 21 times of gravity solar thermal power generation turbines with 21x turbine blade cross section (4B) + width of long lens driven by accelerating turbine with small diameter of power increase ball (2E) Compress the air for increased heating to approach 1200 degrees + accelerate the liquid heat containing indium alloy vertically downwards as rolling contact with electric power to drive the heat retention mass turbine and heat retention heat turbine of power generation + various energy to rotate the solar heat augmentation suspension on land Preservation cycle union agency.   Structure and method for accelerating the critical substance vertically by providing 22 times gravity solar thermal power generation turbines in multiple stages with a turbine blade cross section (4C) + Acceleration turbine drive with a small diameter of power increase ball (2E) + Width of long lens Compresses the air of increased heating to approach 1200 degrees + accelerates the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact with power generating heat retention mass turbine and heat retention heat power source turbine to drive the solar heat augmentation suspension on land Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate the critical substance vertically by providing 23 times of gravity solar thermal power generation turbines with a turbine blade cross section (4D) in multiples of 23 times + width of long lens driven by accelerating turbine with small diameter of power increase ball (2E) Compress the air for increased heating to approach 1200 degrees + Liquid indium containing alloy heat the air by compressed air acceleration to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + Tilt rotation of the solar thermal augmentation suspension bridge on land Various energy conservation cycle union engine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the turbine blade cross section (4E) 24 times in a multistage gravity solar thermal power generation turbine 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating liquid indium containing alloy in vertical direction in heat retention turbine by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat buildup full rise + heat retention ball raising device 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the gravity solar thermal power generation turbine of double the turbine blade cross section (4B) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4C) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of gravity solar thermal power generation of 4 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 9 times the turbine blade cross section (4C) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4E) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4F) + heat + cold energy heat buildup + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4A) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4B) 14 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4C) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4D) 16 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4E) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4F) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4A) with 19 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 20 times gravity solar power generation turbines with 20 times the turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4C) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 23 times of gravity solar thermal power generation turbines with a turbine blade cross section (4E) of 23 times in multiple stages + heat and cold utilization utilizing heat + long lens Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the turbine blade section (4F) by 24 times the gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4C) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4D) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of gravity solar thermal power generation of 4 times the turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold utilization utilizing heat + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4E) + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of the turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with 12 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4C) 14 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4D) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4E) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4F) 17 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4A) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing a multistage solar power generation turbine with 19 times of the turbine blade cross section (4B) + stages to utilize thermal energy and cold energy + solar light as a heat absorbing material with a long lens Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4C) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4D) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 23-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade section (4A) with 24 times the gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4D) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine with triple turbine blade cross section (4E) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of gravity solar thermal power generation of 4 times the turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy with ball increaser (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine in multiple stages with turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times of turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with 12 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4D) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4E) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4F) 17 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4A) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4B) 19 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4C) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4D) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 23-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4D) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine with triple turbine blade cross section (4E) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4F) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times of turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with multiple stages of gravity solar power generation turbines of 11 times + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4E) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4F) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4A) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4B) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4C) 19 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the critical substance vertically downward by providing a multistage 24 times gravity solar power generation turbine with a turbine blade cross section (4B) of 24 times + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4E) in multiple stages + Fully electric house build up + Heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with triple turbine blade cross-section (4F) in multiple stages + Fully charged house prime + Heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4A) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4A) + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4F) 15 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4A) 16 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4B) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4C) 18 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4D) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4F) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade section (4C) cross section + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing alloy in vertical direction in heat retention turbine by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4D) + heat buildup to increase the temperature 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade section (4E) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4F) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4A) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4B) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4B) + heat and cold utilization utilizing heat + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of turbine blade cross section (4C) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing multistage of 14 times gravity solar thermal power generation turbine with turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4A) 15 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4B) 16 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4C) 17 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4D) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4E) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing 21 times of gravity solar thermal power generation turbines with 21 times the turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 23 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4C) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4D) with 24 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + heat buildup to increase the heat buildup 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the gravity solar thermal power generation turbine of double the turbine blade cross section (4A) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4B) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4C) + multistage electric house buildup + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat and cold utilization utilizing heat + solar light with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4B) 15 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4C) 16 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4D) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4E) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4F) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4B) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4C) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 23-fold gravity solar power generation turbine in multiple stages of turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method for accelerating liquid indium containing alloy in vertical direction in heat retention turbine by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat buildup full rise + heat retention ball raising device 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the gravity solar thermal power generation turbine of double the turbine blade cross section (4B) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4C) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4D) + multistage electric house buildup + warmth increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   Configuration and method for vertically accelerating liquid indium containing a 10 times gravity solar power generation alloy with a turbine blade cross section (4D) ++ Heat retention and increase use of liquid indium containing alloy in a ball lifter (2F) + long lens Compresses the air of width increase heating to approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy preservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Configuration and method for vertically accelerating liquid indium containing a turbine blade cross section (4E) and gravity solar power generation alloy of 11 times vertically ++ Heat retention and increase use of liquid indium containing alloy in a ball lifter (2F) + long lens Compress the air of width increase heating to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy to rotate the solar heat increase suspension bridge on the land Preservation cycle union agency.   Configuration and method for vertically accelerating liquid indium containing a turbine blade cross section (4F) and a 12 × gravity solar power generation alloy ++ Heat retention and increase use of ball containing liquid indium containing alloy in a ball lifter (2F) + long lens Compress the air of width increase heating to approach 1200 degrees + accelerate the liquid heat containing liquid alloy including the alloy vertically downward as rolling contact with power generation heat retention mass turbine and heat retention heat power source turbine to drive + solar heat augmentation suspension on land Various energy conservation cycle union engine.   Configuration and method for vertically accelerating liquid indium containing a 13-fold gravity solar thermal power generation alloy with turbine blade cross section (4A) ++ Heat retention and increase use of liquid indium containing alloy in a ball lifter (2F) + long lens Compress the air of width increase heating to approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension tilt on land Let various energy conservation cycle united engine.   Configuration and method for vertically accelerating liquid indium containing a 14-fold gravity solar thermal power generation alloy with turbine blade cross section (4B) ++ Heat retention increase use and storage of liquid indium containing alloy in a ball rising device (2F) + long lens Compress the air to increase the width of the heating air close to 1200 degrees + Liquid indium containing alloy Compress the air by heating the air by heating air to drive the heat retention mass turbine and heat retention heat turbine + Tilt the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Configuration and method for vertically accelerating liquid indium containing 15 times gravity solar power generation alloy with turbine blade cross section (4C) ++ Heat retention increase use and storage of liquid indium containing alloy in ball lift device (2F) + long lens Compresses the air of width increase heating to approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy preservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Configuration and method for vertically accelerating liquid indium containing a turbine blade cross section (4D) and gravity solar power generation alloy having a magnification of 16 times ++ Heat retention and increase use of liquid indium containing alloy in a ball lifter (2F) + long lens Compress the air of width increase heating to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy to rotate the solar heat increase suspension bridge on the land Preservation cycle union agency.   Configuration and method for vertically accelerating liquid indium containing a 17-fold gravity solar power generation alloy with a turbine blade cross section (4E) ++ Heat retention increase use and storage using liquid indium containing alloy in a ball rising device (2F) + long lens Compress the air of width increase heating to approach 1200 degrees + accelerate the liquid heat containing liquid alloy including the alloy vertically downward as rolling contact with power generation heat retention mass turbine and heat retention heat power source turbine to drive + solar heat augmentation suspension on land Various energy conservation cycle union engine.   Configuration and method for vertically accelerating liquid indium containing a turbine blade cross section (4F) and 18 times gravity solar power generation alloy ++ Heat retention and increase use of liquid indium containing alloy in a ball raising device (2F) + long lens Compress the air of width increase heating to approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension tilt on land Let various energy conservation cycle united engine.   Configuration and method for vertically accelerating liquid indium containing a 19-fold gravity solar power generation alloy with turbine blade cross section (4A) ++ Heat retention increase use and storage of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air to increase the width of the heating air close to 1200 degrees + Liquid indium containing alloy Compress the air by heating the air by heating air to drive the heat retention mass turbine and heat retention heat turbine + Tilt the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4C) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 23-fold gravity solar thermal power generation turbine at a multistage turbine blade cross section (4E) + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage solar power generation turbine with a turbine blade section (4F) of 24 times in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method for accelerating the liquid indium containing the alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4C) in multiple stages + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with three times the turbine blade cross section (4D) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4E) + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4F) in multiple stages + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 6 times the turbine blade cross-section (4A) in multiple stages + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 7-fold gravity solar thermal power generation turbine at a multistage turbine blade cross section (4B) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4C) in multiple stages + battery-driven various ships and so on + thermal expansion ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 9-fold gravity solar thermal power generation turbine with a turbine blade cross section (4D) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 10 times the turbine blade cross-section (4E) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross-section (4F) in multiple stages + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4A) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + battery-powered various ships, etc. + heat retention ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4E) with 16 times of gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + thermal insulation increasing ball lifter (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 17-fold gravity solar thermal power generation turbine at 17 times the turbine blade cross-section (4F) + battery-powered various ships and so on 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage 18-fold gravity solar power generation turbine with turbine blade cross-sections (4A) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4B) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4D) in multiple stages + battery-powered various ships and so on 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 23-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships, etc. + heat retention ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4A) with 24 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + thermal insulation increasing ball lifter (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4b) + battery-powered various ships, etc. + heat retention ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + battery-driven various ships and so on + warmer increase ball lifter (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4D) in multiple stages + battery-driven various ships and so on + warmer increase ball lifter (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with triple turbine blade cross section (4E) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage gravity solar thermal power generation turbine with quadruple turbine blade cross-section (4F) + multiple batteries driven by storage battery + warmth increase ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 5 times of gravity solar thermal power generation turbines with 5 times the turbine blade cross section (4A) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress air to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycle combined engines that tilt rotation of the solar thermal suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 6 times the turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress air to approach 1200 degrees + Accelerate vertically downward of liquid indium containing high temperature alloy to drive thermal mass turbine and thermal thermal power turbine + Various energy conservation cycle coalescence engines that tilt rotation of solar thermal augmentation bridge on land .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar thermal power generation turbine in 7 stages of turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress air to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward as rolling contact with power generation heat retention mass turbine and heat retention heat power source turbine to drive + solar thermal augmentation suspension various tilt angle rotation on land Coalition agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4D) with 8 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + solar energy Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress the air to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downwards as rolling contact with power generation heat retention mass turbine and heat retention heat power source turbine to drive + solar heat augmentation Cycle coalescing agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine in multiple stages with turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress the air and move it closer to 1200 degrees + Liquid indium containing alloy heat the air by compressed air acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy to tilt and rotate the solar thermal suspension bridge on land Preservation cycle union agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times of turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with multiple stages of gravity solar power generation turbines of 11 times + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4E) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4F) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4A) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4B) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4C) 19 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the critical substance vertically downward by providing a multistage 24 times gravity solar power generation turbine with a turbine blade cross section (4B) of 24 times + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4E) in multiple stages + Fully electric house build up + Heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with triple turbine blade cross-section (4F) in multiple stages + Fully charged house prime + Heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4A) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with 10 times gravity solar power generation turbine in multiple stages ++ Heat retention increasing ball raising device (2F) containing liquid indium containing alloy Use uplift + compress the air of width increase heating of long lens and move it towards 1200 degrees + accelerate vertically down the liquid indium containing alloy to drive the heat retention mass turbine and heat retention heat turbine + land on the solar heat increase suspension bridge The various energy storage cycles combined engine to rotate at tilt.   A structure and method for vertically elevating liquid indium containing high temperature alloy by providing a turbine blade cross section (4B) with 11 × gravity solar power generation turbine in multiple stages ++ Heat retention increasing ball raising device (2F) liquid indium containing alloy Use ascend storage + Compress the air of width increase heating of long lens to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + solar heat increase suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4C) with 12 times gravity solar power generation turbine in multiple stages ++ Heat retention increasing ball raising device (2F) containing liquid indium containing alloy Uplift storage use + compression of long lens width expansion heating air to approach 1200 degrees + liquid indium containing alloy vertically accelerated downwards as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat turbine + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate the suspension bridge on land.   Structure and method for vertically accelerating liquid indium containing high temperature alloy by providing 13 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4D) ++ Heat retention increasing ball raising device (2F) liquid indium containing alloy Uplift storage use + compression of extended width heating air of long lens to approach 1200 ° C. + liquid indium containing high temperature alloy accelerated downward vertically accelerated rolling contact with electric heat generation mass turbine and heat retention heat turbine as solar contact + solar thermal energy Various energy storage cycle combined engines that tilt and rotate the increase suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar power generation turbines of 14 times the turbine blade cross section (4E) in multiple stages ++ Heat retention increasing ball raising device (2F) liquid indium containing alloy Uplift storage Use + compress the width of the long lens increase heating air to approach 1200 degrees + liquid indium containing alloy Liquid air to heat the air by compressed air acceleration to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + A variety of energy storage cycle combined engines that tilt and rotate a solar thermal suspension bridge on land.   Equipment method to make the turbine blade cross section (4F) 15 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4A) 16 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4B) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4C) 18 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4D) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4F) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade section (4C) cross section + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing alloy in vertical direction in heat retention turbine by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4D) + heat buildup to increase the temperature 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade section (4E) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4F) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4A) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4B) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4B) + heat and cold utilization utilizing heat + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of turbine blade cross section (4C) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing multistage of 14 times gravity solar thermal power generation turbine with turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4A) 15 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4B) 16 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4C) 17 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4D) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4E) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing 21 times of gravity solar thermal power generation turbines with 21 times the turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 23 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4C) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4D) with 24 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + heat buildup to increase the heat buildup 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the gravity solar thermal power generation turbine of double the turbine blade cross section (4A) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4B) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4C) + multistage electric house buildup + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat and cold utilization utilizing heat + solar light with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4B) 15 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4C) 16 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4D) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4E) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4F) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4B) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4C) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 23-fold gravity solar power generation turbine in multiple stages of turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method for accelerating liquid indium containing alloy in vertical direction in heat retention turbine by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat buildup full rise + heat retention ball raising device 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the gravity solar thermal power generation turbine of double the turbine blade cross section (4B) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4C) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4D) + multistage electric house buildup + warmth increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4E) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4F) + heat + cold energy heat buildup + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4A) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4B) + heat and cold utilization utilizing heat + solar light with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4C) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4D) 16 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4E) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4F) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4A) 19 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing 20 times gravity solar power generation turbines with 20 times the turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4C) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 23 times of gravity solar thermal power generation turbines with a turbine blade cross section (4E) of 23 times in multiple stages + heat and cold utilization utilizing heat + long lens Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage solar power generation turbine with a 24 × turbine blade section (4F) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4C) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4D) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4E) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4E) + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of the turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with 12 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4D) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4E) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4F) 17 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4A) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4B) 19 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4C) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4D) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 23-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4D) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine with triple turbine blade cross section (4E) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4F) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times of turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with multiple stages of gravity solar power generation turbines of 11 times + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4E) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4F) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4A) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4B) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4C) 19 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the critical substance vertically downward by providing a multistage 24 times gravity solar power generation turbine with a turbine blade cross section (4B) of 24 times + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4E) in multiple stages + Fully electric house build up + Heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with triple turbine blade cross-section (4F) in multiple stages + Fully charged house prime + Heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4A) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4A) + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4F) 15 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4A) 16 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4B) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4C) 18 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4D) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4F) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade section (4C) cross section + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing alloy in vertical direction in heat retention turbine by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4D) + heat buildup to increase the temperature 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade section (4E) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4F) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4A) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4B) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   Configuration and method for vertically accelerating liquid indium containing a 10 times gravity solar power generation alloy with a turbine blade cross section (4B) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a gravity solar power generation alloy with a turbine blade cross-section (4C) of 11 times vertically + air tube air is subjected to suction compression heat recovery to be superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 12-fold gravity solar power generation alloy with a turbine blade cross section (4D) + air tube air with suction heat recovery and superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 13-fold gravity solar power generation alloy with a turbine blade cross section (4E) + air tube air with suction heat recovery and superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 14-fold gravity solar power generation alloy with a turbine blade cross section (4F) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and store liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy compression air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 15 times gravity solar power generation alloy with turbine blade cross section (4A) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 16 times gravity solar power generation alloy with turbine blade cross section (4B) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 17-fold gravity solar thermal power generation alloy with a turbine blade cross section (4C) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 18-fold gravity solar power generation alloy with a turbine blade cross section (4D) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 19-fold gravity solar power generation alloy with a turbine blade cross section (4E) + air tube air with suction heat recovery and superheated steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and store liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy compression air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so forth + Heat retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4A) + battery-powered various ships and other kind of ships + heat retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating the liquid indium containing the alloy vertically downward by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 23-fold gravity solar thermal power generation turbine with a turbine blade cross section (4C) in multiple stages + battery-powered various ships and so on + thermal expansion ball lifter (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage solar power generation turbine with a turbine blade section (4D) of 24 times in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method for accelerating liquid indium containing alloys by vertically providing 25 times of gravity solar thermal power generation turbines with 25 times the turbine blade cross section (4E) + battery-powered various ships, etc. + heat retention increasing ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4A) in multiple stages + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with three times the turbine blade cross section (4B) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a four-fold gravity solar thermal power generation turbine with four times the turbine blade cross section (4C) + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine at a turbine blade cross section (4D) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 6 times the turbine blade cross section (4E) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 7-fold gravity solar thermal power generation turbine at a multistage turbine blade cross-section (4F) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a turbine blade section (4A) with 8-fold gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 9 times the turbine blade cross section (4B) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 10 times gravity solar thermal power generation turbine at a multistage turbine blade cross section (4C) + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross-section (4D) in multiple stages + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4E) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + battery-driven various ships and other kind of ships + heat retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships, etc. + heat retention ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4C) with 16 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + thermal insulation increasing ball lifter (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 17-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage 18-fold gravity solar thermal power generation turbine with a turbine blade cross section (4E) + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4F) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + battery-powered various ships and so on 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 23-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage solar power generation turbine with 24 times the turbine blade cross-section (4E) + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so on + thermal expansion ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + battery-driven various ships and so on + warmer increase ball lifter (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4B) in multiple stages + battery-driven various ships and so on + warmer increase ball lifter (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with three times the turbine blade cross section (4C) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4D) + battery-driven various ships and so on + heat retention ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approach the temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross-section (4F) in multiple stages + heat and cold utilization utilizing heat + solar light with long lenses Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar thermal power generation turbine in 7 stages of turbine blade cross section (4A) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Bring the liquid indium containing alloy up to 1200 degrees vertically to accelerate the rolling contact with the power downward to drive the heat retaining mass turbine and heat retaining heat turbine of the power generation + Various thermal energy storage cycle coalescent engines to tilt and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing 8 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Bring the liquid indium containing high temperature alloy up to 1200 degrees vertically downward to accelerate the rolling contact with power generation to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various energy conservation cycle coalescence engines to tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 9 times the turbine blade cross section (4C) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approximate 1200 ° C + Liquid indium containing alloy Heat air by compressed air acceleration of air to drive power generation heat retention mass turbine and heat retention heat energy turbine .   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4E) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4F) + heat + cold energy heat buildup + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4A) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4B) + heat and cold utilization utilizing heat + solar light with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4C) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4D) 16 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4E) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4F) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4A) 19 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing 20 times gravity solar power generation turbines with 20 times the turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4C) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 23 times of gravity solar thermal power generation turbines with a turbine blade cross section (4E) of 23 times in multiple stages + heat and cold utilization utilizing heat + long lens Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage solar power generation turbine with a 24 × turbine blade section (4F) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4C) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4D) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4E) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4E) + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of the turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with 12 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4D) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4E) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4F) 17 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4A) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4B) 19 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4C) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4D) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 23-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4D) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine with triple turbine blade cross section (4E) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4F) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times of turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with multiple stages of gravity solar power generation turbines of 11 times + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4E) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4F) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4A) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4B) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4C) 19 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the critical substance vertically downward by providing a multistage 24 times gravity solar power generation turbine with a turbine blade cross section (4B) of 24 times + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4E) in multiple stages + Fully electric house build up + Heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with triple turbine blade cross-section (4F) in multiple stages + Fully charged house prime + Heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4A) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4A) + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4D) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4F) 15 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4A) 16 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4B) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4C) 18 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4D) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4F) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade section (4C) cross section + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing alloy in vertical direction in heat retention turbine by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4D) + heat buildup to increase the temperature 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade section (4E) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4F) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4A) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4B) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4B) + heat and cold utilization utilizing heat + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of turbine blade cross section (4C) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing multistage of 14 times gravity solar thermal power generation turbine with turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4A) 15 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4B) 16 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4C) 17 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4D) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4E) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing 21 times of gravity solar thermal power generation turbines with 21 times the turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 23 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4C) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4D) with 24 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + heat buildup to increase the heat buildup 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the gravity solar thermal power generation turbine of double the turbine blade cross section (4A) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4B) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4C) + multistage electric house buildup + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4E) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat and cold utilization utilizing heat + solar light with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4B) 15 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4C) 16 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4D) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4E) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4F) 19 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4B) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4C) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 23-fold gravity solar power generation turbine in multiple stages of turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method for accelerating liquid indium containing alloy in vertical direction in heat retention turbine by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4F) + heat buildup full rise + heat retention ball raising device 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the gravity solar thermal power generation turbine of double the turbine blade cross section (4B) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4C) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4D) + multistage electric house buildup + warmth increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4D) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times the turbine blade cross section (4E) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4F) + heat + cold energy heat buildup + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4A) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4B) + heat and cold utilization utilizing heat + solar light with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4C) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4D) 16 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4E) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4F) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4A) 19 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the critical substance vertically downward by providing 20 times gravity solar power generation turbines with 20 times the turbine blade cross section (4B) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4C) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4D) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 23 times of gravity solar thermal power generation turbines with a turbine blade cross section (4E) of 23 times in multiple stages + heat and cold utilization utilizing heat + long lens Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage solar power generation turbine with a 24 × turbine blade section (4F) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4C) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4D) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4E) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4F) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of 8 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4E) + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 11 times of the turbine blade cross section (4F) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4A) with 12 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4B) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) + heat and cold heat utilization + heat lens with long lenses Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade cross section (4D) 15 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens widening heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Equipment method to make the turbine blade cross section (4E) 16 times gravity solar power generation power generation turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the long lens width increase heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy to drive the heat retention mass turbine and heat retention heat turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4F) 17 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid heat containing alloy vertically downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4A) 18 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4B) 19 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing alloy Compresses the air by heating the air by heating air to drive the heat retaining mass turbine and heat retaining heat turbine + Onshore heat augmentation suspension bridge The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar thermal power generation turbines with 20 times the turbine blade cross section (4C) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4D) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4E) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a 23-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with turbine blade cross section (4A) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + heat buildup ball lifter 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4C) 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4D) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine with triple turbine blade cross section (4E) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4F) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of 5 times gravity solar thermal power generation of turbine blade cross section (4A) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball raising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy storage cycles to tilt and rotate the solar heat increase suspension bridge on land Coalition agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4B) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation to rotate the solar heat augmentation suspension on land Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4C) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various kinds of tilt rotation of solar heat increase suspension bridge on land Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4D) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress air of width expansion heating to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerating as a rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade section (4E) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the width-increase heating air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate the air by heating air to drive the heat-retention mass turbine and heat-retention heat turbine Let various energy conservation cycle united engine.   Configuration and method for vertically accelerating liquid indium containing a 10 times gravity solar power generation alloy with a turbine blade cross section (4F) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a gravity solar thermal power generation alloy with 11 times the turbine blade cross-section (4A) + air tube air with suction, heat and heat recovery and superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 12-fold gravity solar power generation alloy with turbine blade cross section (4B) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 13-fold gravity solar thermal power generation alloy with a turbine blade cross section (4C) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 14-fold gravity solar thermal power generation alloy with a turbine blade cross section (4D) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and store liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy compression air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 15-fold gravity solar power generation alloy with a turbine blade cross section (4E) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward A variety of energy storage cycle combined engines that accelerate the heat retention mass turbine and heat retention heat energy turbine and + rotate the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 16 times gravity solar power generation alloy with a turbine blade cross section (4F) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Various energy storage cycle combined engines that accelerate downward and drive the heat retention mass turbine and heat retention heat turbine + tilt rotation of the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 17-fold gravity solar power generation alloy with a turbine blade cross section (4A) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward Drive the heat retention mass turbine and heat retention heat turbine of the power generation as acceleration rolling contact + Various energy storage cycle combined engine to tilt and rotate the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing 18 times gravity solar power generation alloy with turbine blade cross section (4B) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Downward to drive the heat retention mass turbine and heat retention heat turbine of the power generation as accelerating rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 19-fold gravity solar power generation alloy with a turbine blade cross section (4C) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and store liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy compression air A variety of energy storage cycle combined engines, in which the air is heated by acceleration to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar power augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + battery-powered various ships and so forth + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing alloy vertically downward by keeping warm mass turbine and heat retention heat turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4E) in multiple stages + battery-driven various ships and so on + thermal expansion ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships, etc. + heat retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating the liquid indium containing the alloy vertically downward by providing a 23-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4A) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage solar power generation turbine with a turbine blade section (4B) of 24 times in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4C) + battery driven various vessels like this + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4D) in multiple stages + battery-powered various ships and so on 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with doubled turbine blade cross-section (4E) in multiple stages + battery-driven various ships and so on 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4F) in multiple stages + battery-powered various ships and so on 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar thermal power generation turbine with quadrupled turbine blade section (4A) + multistage battery powered various vessels such as + heat retention increasing ball lifter ( 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4B) in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine of 6 times the turbine blade cross section (4C) in multiple stages + battery storage various ships like ship + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 7-fold gravity solar thermal power generation turbine at a multistage turbine blade cross-section (4D) + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross-section (4E) in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 9 times the turbine blade cross section (4F) in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing the turbine blade section (4A) with 10 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4B) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing the turbine blade cross section (4C) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-driven various ships and so on 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4D) + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method for accelerating liquid indium containing high-temperature alloy vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing the turbine blade cross section (4A) with 16 times gravity solar thermal power generation turbine in multiple stages + battery-driven various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing 17 times of gravity solar thermal power generation turbines with 17 times the turbine blade cross section (4B) + battery powered by various vessels such as + heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage 18-fold gravity solar thermal power generation turbine with a turbine blade cross section (4C) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4D) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise + compression of air of width increase heating air to approach 1200 degrees + width of long lens + heat retention mass turbine of electric power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4E) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4F) + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) Keep the liquid indium containing alloy in use + Save the length of the lens to increase the width of the heated heating air + Close to 1200 degrees + Heat the air by heating the air with the liquid indium containing the alloy + Generate compressed air Heat retention mass turbine And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing 22 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4A) + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method for accelerating the liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4B) + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 24 times the turbine blade cross-section (4C) + battery-powered various ships and so on + warmth increase ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4D) + battery driven various vessels like this + heat retention increasing ball lifter ( 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4E) in multiple stages + battery-powered various ships and so on 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with doubled turbine blade cross-sections (4F) in multiple stages + battery-powered various ships and so on 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approach the temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross section (4X) in multiple stages + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar power generation turbine with 7 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Bring the liquid indium containing alloy up to 1200 degrees vertically to accelerate the rolling contact with the power downward to drive the heat retaining mass turbine and heat retaining heat turbine of the power generation + Various thermal energy storage cycle coalescent engines to tilt and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by arranging a gravity solar thermal power generation turbine with 8 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Bring the liquid indium containing high temperature alloy up to 1200 degrees vertically downward to accelerate the rolling contact with power generation to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various energy conservation cycle coalescence engines to tilt and rotate the solar thermal suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + heat lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approximate 1200 ° C + Liquid indium containing alloy Heat air by compressed air acceleration of air to drive power generation heat retention mass turbine and heat retention heat energy turbine .   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that use the compressed air acceleration to heat the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy of heavy material vertically downward to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar thermal augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates vertically downward the liquid indium containing heavy material high temperature alloy to drive the heat retaining mass turbine and heat retaining energy turbine + solar heat gain Various energy storage cycle combined engines that tilt and rotate the suspension bridge on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens air of long lens and moves it towards 1200 degrees + accelerates the liquid heat containing liquid alloy containing heavy material vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing an alloy of heavier material vertically accelerated downwards as a rolling contact to drive a heated thermal mass turbine and thermal thermal energy turbine of power generation + solar thermal augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long lens width expansion heating air compression to approach 1200 degrees + acceleration of liquid indium containing an alloy of heavy material to drive power generation warmth mass turbine and warmth thermal power turbine + solar thermal augmentation suspension on land tilt rotation on land Let various energy conservation cycle united engine.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy The heat retention mass turbine and heat retention heat turbine of the power generation are driven as rolling contact with acceleration + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing rise storage alloy + long lens width increase heat compression air to approach 1200 degrees + containing high temperature alloy of heavier material Vertically rotating liquid indium as a rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine as a rolling contact + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compressed to approach 1200 degrees + Liquid indium containing alloy of heavier material is accelerated by compressed air and heat generation is maintained A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to be compressed to approach 1200 degrees + Liquid indium containing heavy substance alloy is accelerated by rolling air with electric rolling Insulated power generation as rolling contact A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy in rise storage + Compress the width of heating lens to increase the air width of long lens to approach 1200 degrees + Generate liquid indium containing alloy of heavier material in compressed air as accelerated rolling contact as power generation A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in elevated storage + long lens width increase heating air compression to make it approach 1200 degrees + accelerated liquid indium containing high temperature alloy of heavy material to generate electricity retaining mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing compressed material alloy with heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to bring it closer to 1200 degrees + liquid indium containing high temperature alloy of heavier material vertically accelerated downwards as a rolling contact to drive the warmth mass turbine and warmth heat power generation turbine of electricity generation + solar thermal augmentation suspension on land The various energy storage cycles combined engine to rotate at tilt.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy with ball lifter (2F) + use long lens width increase heating Compress air to approach 1200 degrees + heavy material alloy Containing liquid indium is accelerated with compressed air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy with ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + alloy of heavier material The liquid indium is accelerated with compressed air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy with ball lifter (2F) + use long lens width increase heating Compress air to approach 1200 degrees + heavy material alloy Including liquid indium as compressed air accelerates rolling contact with electric power to drive the heat retention mass turbine and heat retention heat turbine of power generation + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy with ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + alloy of heavier material Liquid-indium includes vertically-downward accelerated rolling contact with liquid indium to drive the heat-generating mass turbine and heat-generating heat turbine of power generation + Various energy storage cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in ball lifter (2F) + use long lens width increase heat compression air to approach 1200 degrees + heavy material high temperature alloy A variety of energy storage cycle combined engines that accelerate the liquid indium containing and drive the heat retention mass turbine and heat retention heat turbine of power generation + tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy of heavy material vertically downward to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar thermal augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing the alloy of heavier material vertically downward to drive the heat retaining mass turbine and heat retaining heat turbine of electricity generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens air of long lens and moves it towards 1200 degrees + accelerates the liquid heat containing liquid alloy containing heavy material vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing an alloy of heavier material vertically accelerated downwards as a rolling contact to drive a heated thermal mass turbine and thermal thermal energy turbine of power generation + solar thermal augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long lens width expansion heating air compression to approach 1200 degrees + acceleration of liquid indium containing an alloy of heavy material to drive power generation warmth mass turbine and warmth thermal power turbine + solar thermal augmentation suspension on land tilt rotation on land Let various energy conservation cycle united engine.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Indium is compressed air to accelerate rolling contact and drive a heat retaining mass turbine and heat retaining heat turbine for power generation + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compressed to approach 1200 degrees + Liquid indium containing alloy of heavier material is accelerated by compressed air and heat generation is maintained A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to be compressed to approach 1200 degrees + Liquid indium containing heavy substance alloy is accelerated by rolling air with electric rolling Insulated power generation as rolling contact A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy in rise storage + Compress the width of heating lens to increase the air width of long lens to approach 1200 degrees + Generate liquid indium containing alloy of heavier material in compressed air as accelerated rolling contact as power generation A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in elevated storage + long lens width increase heating air compression to make it approach 1200 degrees + accelerated liquid indium containing high temperature alloy of heavy material to generate electricity retaining mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing compressed material alloy with heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy of heavy substance vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as a rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing alloys by vertically providing 12 times gravity solar power generation turbines with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertically and downwards Acceleration rolling contact The power generation heat retention mass turbine and heat retention heat energy turbine are driven as + + solar heat augmentation Various energy preservation cycle combined engine which tilts rotation on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate the liquid indium containing the alloy of heavy material vertically downward to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + land on the solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing the alloy of heavier material vertically downward to drive the heat retaining mass turbine and heat retaining heat turbine of electricity generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens air of long lens and moves it towards 1200 degrees + accelerates the liquid heat containing liquid alloy containing heavy material vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing an alloy of heavier material vertically accelerated downwards as a rolling contact to drive a heated thermal mass turbine and thermal thermal energy turbine of power generation + solar thermal augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long lens width expansion heating air compression to approach 1200 degrees + acceleration of liquid indium containing an alloy of heavy material to drive power generation warmth mass turbine and warmth thermal power turbine + solar thermal augmentation suspension on land tilt rotation on land Let various energy conservation cycle united engine.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy To accelerate the power generation to drive the heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to make the sloping rotation on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing rise storage alloy + long lens width increase heat compression air to approach 1200 degrees + containing high temperature alloy of heavier material Various energy storage cycle combined engines that rotate liquid indium vertically downward to drive power generation heat retention mass turbines and heat retention heat energy turbines + tilt ramp rotation on land on a solar thermal augmentation suspension bridge.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy The compressed air accelerates rolling contact and drives the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Indium is compressed air to accelerate rolling contact and drive a heat retaining mass turbine and heat retaining heat turbine for power generation + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compressed to approach 1200 degrees + Liquid indium containing alloy of heavier material is accelerated by compressed air and heat generation is maintained A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to be compressed to approach 1200 degrees + Liquid indium containing heavy substance alloy is accelerated by rolling air with electric rolling Insulated power generation as rolling contact A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy in rise storage + Compress the width of heating lens to increase the air width of long lens to approach 1200 degrees + Generate liquid indium containing alloy of heavier material in compressed air as accelerated rolling contact as power generation A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in elevated storage + long lens width increase heating air compression to make it approach 1200 degrees + accelerated liquid indium containing high temperature alloy of heavy material to generate electricity retaining mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the width-increase heating air to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy of heavier material to drive the power generation heat retention mass turbine and heat retention heat power turbine + solar heat increase suspension bridge on land Inclined engine with various energy storage cycles.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as a rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically downward by providing a multistage solar power generation turbine with 11 × turbine blade cross-section (4 ×) + heat and cold heat utilization + absorption of solar light with a long lens Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that use the compressed air acceleration to heat the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate the liquid indium containing the alloy of heavy material vertically downward to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + land on the solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid indium containing the alloy of heavier material vertically downward to drive the heat retention mass turbine and heat retention heat turbine + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens air of long lens and moves it towards 1200 degrees + accelerates the liquid heat containing liquid alloy containing heavy material vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing an alloy of heavier material vertically accelerated downwards as a rolling contact to drive a heated thermal mass turbine and thermal thermal energy turbine of power generation + solar thermal augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle coalescing engines that accelerate indium downward vertically to drive a power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of a solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Various energy storage cycle coalescing engines, in which indium is accelerated by compressed air to drive power generation heat retention mass turbines and heat retention heat energy turbines, and + solar power augmentation suspension bridge is tilt rotated on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy The compressed air accelerates rolling contact and drives the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Indium is compressed air to accelerate rolling contact and drive a heat retaining mass turbine and heat retaining heat turbine for power generation + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compressed to approach 1200 degrees + Liquid indium containing alloy of heavier material is accelerated by compressed air and heat generation is maintained A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to be compressed to approach 1200 degrees + Liquid indium containing heavy substance alloy is accelerated by rolling air with electric rolling Insulated power generation as rolling contact A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy in rise storage + Compress the width of heating lens to increase the air width of long lens to approach 1200 degrees + Generate liquid indium containing alloy of heavier material in compressed air as accelerated rolling contact as power generation A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in elevated storage + long lens width increase heating air compression to make it approach 1200 degrees + accelerated liquid indium containing high temperature alloy of heavy material to generate electricity retaining mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy of heavy material to drive the generated warmth mass turbine and warmth thermal power turbine + slope the solar thermal augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing compressed material alloy with heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as a rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerates liquid indium containing an alloy of heavy material to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + various energy to rotate the solar heat augmentation suspension on land Preservation cycle union agency.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combined engines that vertically accelerate downward and drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that use the compressed air acceleration to heat the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate the liquid indium containing heavy material alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid indium containing the alloy of heavier material vertically downward to drive the heat retention mass turbine and heat retention heat turbine + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens air of long lens and moves it towards 1200 degrees + accelerates the liquid heat containing liquid alloy containing heavy material vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it closer to 1200 degrees + liquid indium containing an alloy of heavier material as an accelerated rolling contact to drive a heated thermal mass turbine and thermal thermal energy turbine for electricity generation + solar thermal augmentation suspension on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy Accelerated with compressed air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Various energy storage cycle coalescing engines, in which indium is accelerated by compressed air to drive power generation heat retention mass turbines and heat retention heat energy turbines, and + solar power augmentation suspension bridge is tilt rotated on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy The compressed air accelerates rolling contact and drives the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Indium is compressed air to accelerate rolling contact and drive a heat retaining mass turbine and heat retaining heat turbine for power generation + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy Accelerated with compressed air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compressed to approach 1200 degrees + Liquid indium containing alloy of heavier material is accelerated by compressed air and heat generation is maintained A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to be compressed to approach 1200 degrees + Liquid indium containing heavy substance alloy is accelerated by rolling air with electric rolling Insulated power generation as rolling contact A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy in rise storage + Compress the width of heating lens to increase the air width of long lens to approach 1200 degrees + Generate liquid indium containing alloy of heavier material in compressed air as accelerated rolling contact as power generation A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing compressed material alloy with heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as a rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing alloys by vertically providing 12 times gravity solar power generation turbines with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertically and downwards Acceleration rolling contact The power generation heat retention mass turbine and heat retention heat energy turbine are driven as + + solar heat augmentation Various energy preservation cycle combined engine which tilts rotation on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that use the compressed air acceleration to heat the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate the liquid indium containing heavy material alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of the extended lens of the long lens to make it approach 1200 degrees + accelerate the liquid indium containing the alloy of heavier material vertically downward to drive the heat retention mass turbine and heat retention heat turbine + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of long lens width increase heating and approach 1200 degrees + liquid indium containing alloy of heavy material accelerates rolling contact with power generating heat retention mass turbine and heat generation heat energy turbine driving power + solar heat augmentation suspension slope on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + liquid indium containing high temperature alloy of heavier material vertically downwards accelerated rolling contact as power generation thermal mass turbine and thermal energy turbine driving solar heat augmentation + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate the suspension bridge on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy Accelerated with compressed air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Various energy storage cycle coalescing engines, in which indium is accelerated by compressed air to drive power generation heat retention mass turbines and heat retention heat energy turbines, and + solar power augmentation suspension bridge is tilt rotated on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy The compressed air accelerates rolling contact and drives the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Indium is compressed air to accelerate rolling contact and drive a heat retaining mass turbine and heat retaining heat turbine for power generation + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compressed to approach 1200 degrees + Liquid indium containing alloy of heavier material is accelerated by compressed air and heat generation is maintained A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to be compressed to approach 1200 degrees + Liquid indium containing heavy substance alloy is accelerated by rolling air with electric rolling Insulated power generation as rolling contact A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( Using liquid indium containing alloy in 2F) + save the width of lens to increase the width of heating heating compressed air to approach 1200 degrees + generate liquid indium containing high temperature alloy of heavier material vertically accelerated accelerated rolling contact A heat retention mass turbine and a heat retention heat turbine are driven. + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get closer to 1200 degrees + heavy material high temperature alloy accelerates liquid indium to generate electricity retaining mass turbine and heat retention A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing compressed material alloy with heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavier material alloy vertically downward accelerated as a rolling contact to drive the warmth mass turbine and warmth heat power turbine of generation + solar thermal augmentation bridge on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in ball lifter (2F) + use long lens width increase heat compression air to approach 1200 degrees + heavy material high temperature alloy The liquid indium is accelerated vertically downward to drive the power generation heat retention mass turbine and heat generation heat energy turbine + various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy with ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + alloy of heavier material The liquid indium is accelerated vertically downward to drive the power generation heat retention mass turbine and heat generation heat energy turbine + various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy with ball lifter (2F) + use long lens width increase heating Compress air to approach 1200 degrees + heavy material alloy Including liquid indium as vertical downward accelerated rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat increase suspension bridge with various energy storage cycle combined engines to tilt and rotate on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy with ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + alloy of heavier material Liquid-indium includes vertically-downward accelerated rolling contact with liquid indium to drive the heat-generating mass turbine and heat-generating heat turbine of power generation + Various energy storage cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy with ball lifter (2F) + use long lens width increase heating Compress air to approach 1200 degrees + heavy material alloy Containing various types of energy storage cycle combined engine that accelerates liquid indium and drives the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate the liquid indium containing heavy material alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressing the long lens width increasing heating air to approach 1200 degrees + accelerate the liquid indium containing the alloy of heavier material to drive the electric warmth mass turbine and warmth thermal power turbine + slope the solar thermal augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air of long lens and moves it close to 1200 degrees + accelerates the heat retaining mass turbine and heat retaining heat turbine of electric power generation as a rolling contact with liquid indium containing high temperature alloy of heavy substance vertically downward + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy Accelerated with compressed air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Various energy storage cycle coalescing engines, in which indium is accelerated by compressed air to drive power generation heat retention mass turbines and heat retention heat energy turbines, and + solar power augmentation suspension bridge is tilt rotated on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy The compressed air accelerates rolling contact and drives the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Indium is compressed air to accelerate rolling contact and drive a heat retaining mass turbine and heat retaining heat turbine for power generation + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compressed to approach 1200 degrees + Liquid indium containing alloy of heavier material is accelerated by compressed air and heat generation is maintained A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + compress the width of heating lens to increase the air width of long lens to approach 1200 degrees + generate liquid indium containing high temperature alloy of heavy substance vertically downward as accelerated rolling contact A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy in rise storage + Compress the width of heating lens to increase the air width of long lens to approach 1200 degrees + Generate liquid indium containing alloy of heavier material in compressed air as accelerated rolling contact as power generation A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in elevated storage + long lens width increase heating air compression to make it approach 1200 degrees + accelerated liquid indium containing high temperature alloy of heavy material to generate electricity retaining mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing compressed material alloy with heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compression of air with increased width heating to move closer to 1200 degrees + Liquid indium containing heavy material alloy vertically downward accelerated as a rolling contact Power generation thermal mass turbine and thermal energy thermal turbine to drive + Solar thermal augmentation suspension slope on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to bring it closer to 1200 degrees + liquid indium containing high temperature alloy of heavier material vertically accelerated downwards as a rolling contact to drive the warmth mass turbine and warmth heat power generation turbine of electricity generation + solar thermal augmentation suspension on land The various energy storage cycles combined engine to rotate at tilt.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combined engines that vertically accelerate downward and drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically downward by providing a multistage solar power generation turbine with 11 × turbine blade cross-section (4 ×) + heat and cold heat utilization + absorption of solar light with a long lens Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing alloys by vertically providing 12 times gravity solar power generation turbines with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertically and downwards Acceleration rolling contact The power generation heat retention mass turbine and heat retention heat energy turbine are driven as + + solar heat augmentation Various energy preservation cycle combined engine which tilts rotation on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 13-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long lens width expansion heating air compression to approach 1200 degrees + acceleration of liquid indium containing an alloy of heavy material to drive power generation warmth mass turbine and warmth thermal power turbine + solar thermal augmentation suspension on land tilt rotation on land Let various energy conservation cycle united engine.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing the high temperature alloy of heavier material vertically downward to drive the power generation heat retaining mass turbine and heat retaining energy turbine + solar power augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens and move it towards 1200 degrees + accelerate the liquid indium containing the alloy of heavy material with the compressed air as compressed rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy Accelerated with compressed air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Various energy storage cycle coalescing engines, in which indium is accelerated by compressed air to drive power generation heat retention mass turbines and heat retention heat energy turbines, and + solar power augmentation suspension bridge is tilt rotated on land.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid indium containing heavy material alloy The compressed air accelerates rolling contact and drives the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate on land.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase heat compressed air to approach 1200 degrees + liquid containing alloy of heavier material Indium is compressed air to accelerate rolling contact and drive a heat retaining mass turbine and heat retaining heat turbine for power generation + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascent to save + long lens width increase heat compressed air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in rise storage + Long lens width increase heating air compression to make it approach 1200 degrees + Liquid indium containing heavy material alloy is accelerated by compressed air and heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   A structure and method for accelerating the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing high temperature alloy of heavier material vertically accelerated downward for power generation A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to be compressed to approach 1200 degrees + Liquid indium containing heavy substance alloy is accelerated by rolling air with electric rolling Insulated power generation as rolling contact A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + tilt ramp rotation on land on solar thermal augmentation suspension bridges.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy in rise storage + Compress the width of heating lens to increase the air width of long lens to approach 1200 degrees + Generate liquid indium containing alloy of heavier material in compressed air as accelerated rolling contact as power generation A variety of energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat capacity turbine + tilt rotation of a solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in elevated storage + long lens width increase heating air compression to make it approach 1200 degrees + accelerated liquid indium containing high temperature alloy of heavy material to generate electricity retaining mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air of increased width heating to approach 1200 degrees + accelerates liquid indium containing an alloy of heavier material vertically downward to drive the generated warmth mass turbine and warmth heat power turbine + incline the solar thermal augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy of heavy substance vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to bring it closer to 1200 degrees + liquid indium containing high temperature alloy of heavier material vertically accelerated downwards as a rolling contact to drive the warmth mass turbine and warmth heat power generation turbine of electricity generation + solar thermal augmentation suspension on land The various energy storage cycles combined engine to rotate at tilt.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate heavy metal molybdenum balls with shock reduction means (2G) to drive the heated thermal mass turbine and thermal thermal energy turbine + solar thermal augmentation suspension on land Inclined engine with various energy storage cycles.   Configuration and method for vertically accelerating a liquid indium containing a 10 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing heavy material alloy Vertically accelerate downward to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a gravity solar power generation alloy with 11 times the gravity of a turbine blade cross section (4X) + air tube air is subjected to suction compression heat recovery to be superheated steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid containing alloy of heavier material Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   Configuration and method for vertically accelerating liquid indium containing a 12-fold gravity solar power generation alloy with turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing heavy material alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 13-fold gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid containing alloy of heavier material Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 14-fold gravity solar thermal power generation alloy with a turbine blade cross section (4X) + air tube air with suction and heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 15-fold gravity solar power generation alloy with turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle coalescing engines that accelerate indium downward vertically to drive a power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of a solar heat increase suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing 16 times gravity solar power generation alloy with turbine blade cross section (4X) + air tube air suction heat recovery heat recovery and superheated steam (50) and compressed air (28a) Each uses a turbine-driven + warm-warming lifter (2F) to lift and use liquid indium containing alloys + wide lens width-widening heating air compression to approach 1200 degrees + containing high temperature alloys of heavier materials Various energy storage cycle combined engines that rotate liquid indium vertically downward to drive power generation heat retention mass turbines and heat retention heat energy turbines + tilt ramp rotation on land on a solar thermal augmentation suspension bridge.   Configuration and method for vertically accelerating liquid indium containing a 17-fold gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction heat recovery heat recovery and superheated steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing heavy material alloy The compressed air accelerates rolling contact and drives the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate on land.   Configuration and method for vertically accelerating liquid indium containing 18 times gravity solar power generation alloy with turbine blade cross section (4X) + air tube air suction heat recovery heat recovery by superheated steam (50) and compressed air (28a) Each uses a turbine-driven + warm-warming lifter (2F) to lift and use liquid indium containing alloys + wide lens width-widening heating air compression to approach 1200 degrees + containing high temperature alloys of heavier materials Vertically rotating liquid indium as a rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine as a rolling contact + Various energy conservation cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   Configuration and method for vertically accelerating liquid indium containing a 19-fold gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid containing heavy material high temperature alloy Various energy storage cycle combined engines that accelerate the indium and drive the power generation heat retention mass turbine and heat generation heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar thermal power generation turbine with 20 times the turbine blade cross section (4X) + battery powered by various ships etc. + warmth increase ball raising device ( 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high-temperature alloy vertically downward by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with a 24 × turbine blade cross-section (4X) + battery-driven various vessels such as + + warmth increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + battery driven various vessels like this + heat retention increasing ball raising device ( 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) Use liquid indium containing alloy ascends + Compresses the width of heating lens by increasing the width of heating lens to approach 1200 degrees + accelerates liquid indium containing alloy vertically downward to keep warm mass turbine and thermal energy turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine with 6 times the turbine blade cross section (4X) in multiple stages + battery storage driven various ships like kind + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a 7 times gravity solar thermal power generation turbine with 7 times of turbine blade cross section (4X) + battery driven various vessels like the main body + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise up + compresses the width of heating lens by increasing the width of heating lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 9 times the turbine blade cross-section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to keep warm mass turbine and heat retention turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 10 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward acceleration electric power generation heat retention mass turbine and heat retention as a rolling contact A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4X) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on. 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + battery powered by various ships etc. + warmth increase ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 14 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 15-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing 17 times of gravity solar thermal power generation turbines with 17 times the turbine blade cross section (4X) + battery driven various vessels like the main body + heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 18 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4X) in multiple stages + battery storage various vessels like the mains + heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing high temperature alloy vertically downward accelerating liquid heat generation Thermal insulation mass turbine for power generation as rolling contact And various kinds of energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation on the land of solar thermal augmentation suspension bridge on land.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar thermal power generation turbine with 20 times the turbine blade cross section (4X) + battery powered by various ships etc. + warmth increase ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method for accelerating liquid indium containing high-temperature alloy vertically downward by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with a 24 × turbine blade cross-section (4X) + battery-driven various vessels such as + + warmth increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air to compress to approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration Heat retention mass of power generation Turbines and Thermal Intake Thermal Energy Turbines + Various energy storage cycle combined engines that tilt rotation on the land with solar thermal augmentation suspension bridge.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + battery driven various vessels like this + heat retention increasing ball raising device ( 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Lift up and use liquid indium containing the alloy + Compress the width of heating lens with width increase heating of long lens + Approximate to 1200 degrees + Various energy storage cycles as a power generation method to recover and use combined heat and cold energy Coalition agency.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + battery-powered various ships and so forth + Heat retention ball raising device (2F A) Liquid indium containing alloys are raised and stored + Width of lens extended width Compress air for heating to make it approach 1200 degrees + Combined energy storage and cooling energy combined use various energy storage cycle combination organ.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approach the temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross section (4X) in multiple stages + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Approach 1200 degrees + accelerate the liquid indium containing high temperature alloy vertically downward to drive the heat retention mass turbine and heat retention heat turbine + various energy conservation cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing alloy by providing 7 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lens Gather straight into the material + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and hold + compress lens of width increase heating of long lens Approximate 1200 ° C + Drive the heat retaining mass turbine and heat retaining heat turbine of the power generation as liquid-inclination containing the alloy as vertical downward accelerated rolling contact + Various energy conservation cycle combined engines that tilt rotation of the solar thermal suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing an 8-fold gravity solar thermal power generation turbine at multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather straight into the material + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and hold + compress lens of width increase heating of long lens Approximate 1200 ° C + drive the heat retaining mass turbine and heat retaining heat turbine of the power generation with liquid indium containing high temperature alloy vertically downward as accelerated rolling contact + various energy conservation cycle combined engines that tilt rotation of the solar thermal suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically downward by providing a 9-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather straight into the material + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and hold + compress lens of width increase heating of long lens Approximate 1,200 degrees + Liquid indium containing alloy Heat air by compressed air acceleration to drive power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 10 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combined engines that vertically accelerate downward and drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing the high temperature alloy of heavier material vertically downward to drive the power generation heat retaining mass turbine and heat retaining energy turbine + solar power augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens and move it towards 1200 degrees + accelerate the liquid indium containing the alloy of heavy material with the compressed air as compressed rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times of gravity solar thermal power generation turbines with 25 times the turbine blade cross section (4X) + Fully electric house prime + Heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width Heating air compression to make it approach 1200 degrees + Liquid indium containing alloy vertically accelerated downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat build-up system (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width heating air compression to make it approach 1200 degrees + High temperature alloy containing liquid indium accelerated vertically downward to maintain thermal mass turbine and thermal energy turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross-section (4X) in multiple stages + making full-fledged house prime + warmth increase ball raising device (2F) Use the liquid indium containing alloy in the rising storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward accelerated rolling contact to generate electric heat retaining mass turbine and heat retaining heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing alloys by vertically arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy as vertical downward accelerated rolling contact power generation heat retention mass turbine and heat retention amount A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + heat build-up system + heat retention ball lift device (2F) The liquid indium containing alloy is used for rising storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heating air by compressed air acceleration heat generation mass turbine for power generation and heating A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy of heavy material to drive the generated warmth mass turbine and warmth thermal power turbine + slope the solar thermal augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air of increased width heating to approach 1200 degrees + accelerates liquid indium containing an alloy of heavier material vertically downward to drive the generated warmth mass turbine and warmth heat power turbine + incline the solar thermal augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compression of air with increased width heating to move closer to 1200 degrees + Liquid indium containing heavy material alloy vertically downward accelerated as a rolling contact Power generation thermal mass turbine and thermal energy thermal turbine to drive + Solar thermal augmentation suspension slope on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavier material alloy vertically downward accelerated as a rolling contact to drive the warmth mass turbine and warmth heat power turbine of generation + solar thermal augmentation bridge on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerates liquid indium containing an alloy of heavy material to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + various energy to rotate the solar heat augmentation suspension on land Preservation cycle union agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy of heavier material is accelerated by compressed air to drive electric warmth mass turbine and warmth heat power turbine + solar thermal expansion suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens and move it towards 1200 degrees + accelerate the liquid indium containing the alloy of heavy material with the compressed air as compressed rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times of gravity solar thermal power generation turbines with 25 times the turbine blade cross section (4X) + Fully electric house prime + Heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width Heating air compression to make it approach 1200 degrees + Liquid indium containing alloy vertically accelerated downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat build-up system (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width heating air compression to make it approach 1200 degrees + High temperature alloy containing liquid indium accelerated vertically downward to maintain thermal mass turbine and thermal energy turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing gravity solar power generation turbines with doubled turbine blade cross-sections (4X) in multiple stages + making full-fledged house prime + warmth increase ball lifter (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing alloy as vertically downward accelerated rolling contact to generate electric heat retaining mass turbine and heat retaining heat turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross section (4X) in multiple stages + making full-fledged house prime + thermal insulation increasing ball raising device (2F) Use liquid indium containing alloy in rise storage + compression of air of width increase heating air of long lens close to 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and heat retention A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + heat build-up system + heat retention ball lift device (2F) The liquid indium containing alloy is used for rising storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heating air by compressed air acceleration heat generation mass turbine for power generation and heating A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compression of air with increased width heating to approach 1200 degrees + acceleration of liquid indium containing alloys of heavy materials vertically downward to drive power generation heat retention mass turbine and heat retention heat turbine Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air of increased width heating to approach 1200 degrees + accelerates liquid indium containing an alloy of heavier material vertically downward to drive the generated warmth mass turbine and warmth heat power turbine + incline the solar thermal augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compression of air with increased width heating to move closer to 1200 degrees + Liquid indium containing heavy material alloy vertically downward accelerated as a rolling contact Power generation thermal mass turbine and thermal energy thermal turbine to drive + Solar thermal augmentation suspension slope on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavier material alloy vertically downward accelerated as a rolling contact to drive the warmth mass turbine and warmth heat power turbine of generation + solar thermal augmentation bridge on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerates liquid indium containing an alloy of heavy material to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + various energy to rotate the solar heat augmentation suspension on land Preservation cycle union agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy of heavier material is accelerated by compressed air to drive electric warmth mass turbine and warmth heat power turbine + solar thermal expansion suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens and move it towards 1200 degrees + accelerate the liquid indium containing the alloy of heavy material with the compressed air as compressed rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times of gravity solar thermal power generation turbines with 25 times the turbine blade cross section (4X) + Fully electric house prime + Heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width Heating air compression to make it approach 1200 degrees + Liquid indium containing alloy vertically accelerated downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 26 times of gravity solar thermal power generation turbine in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating air of long lens to approach 1200 degrees + accelerate liquid indium containing high temperature alloy vertically downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross-section (4X) in multiple stages + making full-fledged house prime + warmth increase ball raising device (2F) Use the liquid indium containing alloy in the rising storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward accelerated rolling contact to generate electric heat retaining mass turbine and heat retaining heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross section (4X) in multiple stages + making full-fledged house prime + thermal insulation increasing ball raising device (2F) Use liquid indium containing alloy in rise storage + compression of air of width increase heating air of long lens close to 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and heat retention A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing alloy vertically by providing a four-fold gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + make the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend and store + long lens width increase heating air compressed to approach 1200 degrees + liquid indium containing alloy heat air with compressed air acceleration power generation heat retention mass turbine and heat retention A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compression of air with increased width heating to approach 1200 degrees + acceleration of liquid indium containing alloys of heavy materials vertically downward to drive power generation heat retention mass turbine and heat retention heat turbine Let various energy conservation cycle united engine.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate vertically downwards liquid indium containing an alloy of heavier material to drive the warmth mass turbine and the warmth heat power turbine + tilt rotation of the solar thermal augmentation suspension bridge on land Various energy conservation cycle union engine.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compression of air with increased width heating to move closer to 1200 degrees + Liquid indium containing heavy material alloy vertically downward accelerated as a rolling contact Power generation thermal mass turbine and thermal energy thermal turbine to drive + Solar thermal augmentation suspension slope on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavier material alloy vertically downward accelerated as a rolling contact to drive the warmth mass turbine and warmth heat power turbine of generation + solar thermal augmentation bridge on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy of heavier material is accelerated by compressed air to drive electric warmth mass turbine and warmth heat power turbine + solar thermal expansion suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens and move it towards 1200 degrees + accelerate the liquid indium containing the alloy of heavy material with the compressed air as compressed rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method for accelerating liquid indium containing alloys by vertically providing 25x gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4X) + Fully electric home building + Heat retention ball lift device (2F) Use the liquid indium containing the alloy ascend to save + compress the air of width increase heating of the long lens to approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and the heat retention heat turbine + Various energy storage cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat build-up system (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width heating air compression to make it approach 1200 degrees + High temperature alloy containing liquid indium accelerated vertically downward to maintain thermal mass turbine and thermal energy turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross-section (4X) in multiple stages + making full-fledged house prime + warmth increase ball raising device (2F) Use the liquid indium containing alloy in the rising storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy vertically downward accelerated rolling contact to generate electric heat retaining mass turbine and heat retaining heat A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing alloys by vertically arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy as vertical downward accelerated rolling contact power generation heat retention mass turbine and heat retention amount A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing alloy vertically by providing a four-fold gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + make the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend and store + long lens width increase heating air compressed to approach 1200 degrees + liquid indium containing alloy heat air with compressed air acceleration power generation heat retention mass turbine and heat retention A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compression of air with increased width heating to approach 1200 degrees + acceleration of liquid indium containing alloys of heavy materials vertically downward to drive thermal mass turbines and thermal energy turbines + various types of tilt rotation on land of solar thermal augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate vertically downwards liquid indium containing an alloy of heavier material to drive the warmth mass turbine and the warmth heat power turbine + tilt rotation of the solar thermal augmentation suspension bridge on land Various energy conservation cycle union engine.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compression of air with increased width heating to move closer to 1200 degrees + Liquid indium containing heavy material alloy vertically downward accelerated as a rolling contact Power generation thermal mass turbine and thermal energy thermal turbine to drive + Solar thermal augmentation suspension slope on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width expansion heating to make it approach 1200 degrees + liquid indium containing heavy metal alloy as acceleration rolling contact to drive power generation heat retaining mass turbine and heat retaining heat energy turbine + tilt rotation on land of solar heat augmentation suspension bridge Various energy conservation cycle union engine.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing compressed metal alloy with compressed air with compressed air to drive the generated heat retaining mass turbine and heat retaining heat turbine + tilt the solar heat augmentation suspension on land Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy of heavier material is accelerated by compressed air to drive electric warmth mass turbine and warmth heat power turbine + solar thermal expansion suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens and move it towards 1200 degrees + accelerate the liquid indium containing the alloy of heavy material with the compressed air as compressed rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing alloys by vertically providing a 24 times gravity solar power generation turbine with a turbine blade cross section (4X) of 24 times + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that use the compressed air acceleration to heat the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times of gravity solar thermal power generation turbines with 25 times the turbine blade cross section (4X) + Fully electric house prime + Heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width Heating air compression to make it approach 1200 degrees + Liquid indium containing alloy vertically accelerated downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat build-up system (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width heating air compression to make it approach 1200 degrees + High temperature alloy containing liquid indium accelerated vertically downward to maintain thermal mass turbine and thermal energy turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing gravity solar power generation turbines with doubled turbine blade cross-sections (4X) in multiple stages + making full-fledged house prime + warmth increase ball lifter (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing alloy as vertically downward accelerated rolling contact to generate electric heat retaining mass turbine and heat retaining heat turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate liquid indium containing alloys by vertically arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy as vertical downward accelerated rolling contact power generation heat retention mass turbine and heat retention amount A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing alloy vertically by providing a four-fold gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + make the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend and store + long lens width increase heating air compressed to approach 1200 degrees + liquid indium containing alloy heat air with compressed air acceleration power generation heat retention mass turbine and heat retention A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compression of air with increased width heating to approach 1200 degrees + acceleration of liquid indium containing alloys of heavy materials vertically downward to drive thermal mass turbines and thermal energy turbines + various types of tilt rotation on land of solar thermal augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerate vertically downwards liquid indium containing an alloy of heavier material to drive the warmth mass turbine and the warmth heat power turbine + tilt rotation of the solar thermal augmentation suspension bridge on land Various energy conservation cycle union engine.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of width expansion heating to make it approach 1200 degrees + liquid indium containing heavy material alloy as acceleration rolling contact to drive the heat retention mass turbine and heat retention heat power turbine of power generation + various kinds of tilt rotation on land of solar heat augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to bring it closer to 1200 degrees + liquid indium containing high temperature alloy of heavier material vertically accelerated downwards as a rolling contact to drive the warmth mass turbine and warmth heat power generation turbine of electricity generation + solar thermal augmentation suspension on land The various energy storage cycles combined engine to rotate at tilt.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy of heavier material is accelerated by compressed air to drive electric warmth mass turbine and warmth heat power turbine + solar thermal expansion suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens and move it towards 1200 degrees + accelerate the liquid indium containing the alloy of heavy material with the compressed air as compressed rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + liquid indium containing high temperature alloy of heavier material vertically downwards accelerated rolling contact as power generation thermal mass turbine and thermal energy turbine driving solar heat augmentation + solar heat augmentation Various energy storage cycle combined engines that tilt and rotate the suspension bridge on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method of accelerating the liquid indium containing the alloy vertically by providing a 23 times gravity solar power generation turbine in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lens Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times of gravity solar thermal power generation turbines with 25 times the turbine blade cross section (4X) + Fully electric house prime + Heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width Heating air compression to make it approach 1200 degrees + Liquid indium containing alloy vertically accelerated downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 26 times of gravity solar thermal power generation turbine in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating air of long lens to approach 1200 degrees + accelerate liquid indium containing high temperature alloy vertically downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing gravity solar power generation turbines with doubled turbine blade cross-sections (4X) in multiple stages + making full-fledged house prime + warmth increase ball lifter (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing alloy as vertically downward accelerated rolling contact to generate electric heat retaining mass turbine and heat retaining heat turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate liquid indium containing alloys by vertically arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy as vertical downward accelerated rolling contact power generation heat retention mass turbine and heat retention amount A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing alloy vertically by providing a four-fold gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + make the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend and store + long lens width increase heating air compressed to approach 1200 degrees + liquid indium containing alloy heat air with compressed air acceleration power generation heat retention mass turbine and heat retention A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compression of air with increased width heating to approach 1200 degrees + acceleration of liquid indium containing alloys of heavy materials vertically downward to drive thermal mass turbines and thermal energy turbines + various types of tilt rotation on land of solar thermal augmentation suspension bridge Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing the alloy of heavier material to drive the power generation heat retention mass turbine and heat retention heat power turbine Energy Conservation Cycle Coalition Agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid heat containing liquid alloy containing high temperature alloy of heavy substance vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge on land Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as a rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy of heavier material is accelerated by compressed air to drive electric warmth mass turbine and warmth heat power turbine + solar thermal expansion suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air of long lens and moves it close to 1200 degrees + accelerates the heat retaining mass turbine and heat retaining heat turbine of electric power generation as a rolling contact with liquid indium containing high temperature alloy of heavy substance vertically downward + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 22-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertically and downwards Acceleration rolling contact The power generation heat retention mass turbine and heat retention heat energy turbine are driven as + + solar heat augmentation Various energy preservation cycle combined engine which tilts rotation on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Structure and method for accelerating liquid indium containing alloys by vertically providing 25x gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4X) + Fully electric home building + Heat retention ball lift device (2F) Use the liquid indium containing the alloy ascend to save + compress the air of width increase heating of the long lens to approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and the heat retention heat turbine + Various energy storage cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 26 times of gravity solar thermal power generation turbine in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating air of long lens to approach 1200 degrees + accelerate liquid indium containing high temperature alloy vertically downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing gravity solar power generation turbines with doubled turbine blade cross-sections (4X) in multiple stages + making full-fledged house prime + warmth increase ball lifter (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing alloy as vertically downward accelerated rolling contact to generate electric heat retaining mass turbine and heat retaining heat turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate liquid indium containing alloys by vertically arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy as vertical downward accelerated rolling contact power generation heat retention mass turbine and heat retention amount A variety of energy storage cycle combined engines that drive turbines and tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + heat build-up system + heat retention ball lift device (2F) The liquid indium containing alloy is used for rising storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heating air by compressed air acceleration heat generation mass turbine for power generation and heating A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to approach 1200 degrees + accelerates liquid indium containing an alloy of heavy material to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + various energy to rotate the solar heat augmentation suspension on land Preservation cycle union agency.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the width-increase heating air to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy of heavier material to drive the power generation heat retention mass turbine and heat retention heat power turbine + solar heat increase suspension bridge on land Inclined engine with various energy storage cycles.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as a rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that rotate indium vertically downward to drive a heat retaining mass turbine and a heat retaining heat turbine + tilt rotation of a solar thermal suspension on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy storage cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of long lens widening heating to make it approach 1200 degrees + Liquid indium containing alloy of heavy substance is accelerated by compressed air to drive electric warmth mass turbine and warmth thermal power turbine + land on solar heat augmentation suspension The various energy storage cycles combined engine to rotate at tilt.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing the high temperature alloy of heavier material vertically downward to drive the power generation heat retaining mass turbine and heat retaining energy turbine + solar power augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compress the air of the extended lens of the long lens and move it towards 1200 degrees + accelerate the liquid indium containing the alloy of heavy material with the compressed air as compressed rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and accelerates the liquid indium containing the alloy of a heavier material with compressed air to make the rolling air contact with the compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension bridge A variety of energy storage cycle combined engines that tilt and rotate on land.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air of long lens width increase heating to approach 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive electric warmth mass turbine and warmth thermal power turbine + incline solar heat increase suspension bridge on land Various energy storage cycle coalescing engine to rotate.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing an alloy vertically downward by providing a 21-fold gravity solar power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward to drive a heat retaining mass turbine and a heat retaining heat turbine + Various energy storage cycle combined engines that tilt rotation of a solar thermal augmentation suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerate downward as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + solar heat augmentation Various energy storage cycle combined engine to tilt and rotate the suspension bridge on land.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Vertically accelerating the indium downwards as rolling contact to drive the power generation heat retention mass turbine and heat retention heat energy turbine + Various energy conservation cycle combined engines that tilt rotation of the solar heat increase suspension bridge on land.   A structure and method for accelerating liquid indium containing alloys by vertically providing a 24 times gravity solar power generation turbine with a turbine blade cross section (4X) of 24 times + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that use the compressed air acceleration to heat the air to drive the power generation heat retention mass turbine and heat retention heat energy turbine + tilt rotation of the solar heat increase suspension bridge on land.   Structure and method for accelerating liquid indium containing alloys by vertically providing 25x gravity solar thermal power generation turbines in multiple stages with turbine blade cross section (4X) + Fully electric home building + Heat retention ball lift device (2F) Use the liquid indium containing the alloy ascend to save + compress the air of width increase heating of the long lens to approach 1200 degrees + accelerate the liquid indium containing the alloy vertically downward to drive the heat retention mass turbine and the heat retention heat turbine + Various energy storage cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 26 times of gravity solar thermal power generation turbine in multiple stages + making the whole surface electrification house prime + warmth increase ball raising device (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating air of long lens to approach 1200 degrees + accelerate liquid indium containing high temperature alloy vertically downward to drive heat retention mass turbine and heat retention heat turbine + Various energy conservation cycle combined engines that tilt and rotate the solar thermal suspension bridge on land.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing gravity solar power generation turbines with doubled turbine blade cross-sections (4X) in multiple stages + making full-fledged house prime + warmth increase ball lifter (2F) Use liquid indium containing alloy ascend to save + compress the air of width increase heating of long lens to make it approach 1200 degrees + liquid indium containing alloy as vertically downward accelerated rolling contact to generate electric heat retaining mass turbine and heat retaining heat turbine Drive + solar heat build-up engine with various energy storage cycle to tilt and rotate suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross section (4X) in multiple stages + making full-fledged house prime + thermal insulation increasing ball raising device (2F) Use liquid indium containing alloy in rise storage + compression of air of width increase heating air of long lens close to 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact power generation heat retention mass turbine and heat retention A variety of energy storage cycle combined engine that drives a calorific turbine + tilt rotation of a solar thermal suspension on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + heat build-up system + heat retention ball lift device (2F) The liquid indium containing alloy is used for rising storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heating air by compressed air acceleration heat generation mass turbine for power generation and heating A variety of energy storage cycle combined engine that drives a heat retention heat turbine + tilt rotation of a solar thermal augmentation suspension on land.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate vertically downward the liquid indium containing high temperature alloy of heavy material to drive the generated warmth mass turbine and warmth thermal power turbine + slope the solar thermal augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing compressed material alloy with heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of electricity + slope the solar heat augmentation suspension on land Various energy storage cycle coalescing engine to rotate.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + slope the solar heat augmentation bridge on land Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated by compressed air as a rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of power generation + solar heat augmentation suspension on land Inclined engine with various energy storage cycles.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate liquid indium containing high temperature alloy of heavy material to drive power generation heat retention mass turbine and heat retention heat energy turbine Energy Conservation Cycle Coalition Agency.   Turbine blade cross section (4X) 10 times gravity Solar power generation Sea water temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + heat retention increase Spherical lift device (2F) to rise and use liquid indium containing alloy + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate the liquid crystal containing high temperature alloy vertically downward to increase the amount of power generation Heat retention mass turbine and heat retention heat energy turbine are driven + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Turbine blade cross section (4X) 11 times gravity Solar power generation Sea water temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + heat retention increase Spherical lift device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing the alloy of heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation increase + water surface of the solar heater A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Turbine blade cross section (4X) 12 times gravity Solar power generation Sea water temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + heat retention increase Spherical lift device (2F) to use liquid indium containing alloy to rise and use + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated with compressed air as rolling contact with power generating heat retention mass turbine and heat retention heat turbine driving + solar heater on water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Turbine blade cross section (4X) 13 times gravity Solar power generation Sea water temperature rise 0 fuel cost 0CO2 exhaust 0 power generation increase + heat retention increase Spherical lift device (2F) to use liquid indium containing alloy to rise and use + long lens Compress the air of increased width heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy of heavier material with compressed air as a rolling contact and drive the heat retaining mass turbine and heat retaining heat turbine of heat generating capacity increase + solar power heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 14 times gravity Solar power generation Sea water temperature rise 0 fuel cost 0 CO2 exhaust 0 power generation increase + heat retention increase ball rise device (2F) to use liquid indium containing ascent to save and use liquid indium + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing high temperature alloy of heavy substance to accelerate the power generation warmth mass turbine and warmth thermal power turbine + tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy conservation cycle combined engines aiming at 1000 times the amount of power generation by providing two kinds of vertical all blade gravity solar heat turbines in multistage by accelerating downward and increasing power generation amount.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 18 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing alloys by vertically providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Drive various heat preservation mass turbines and heat retention heat energy turbines to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method of accelerating the liquid indium containing the alloy vertically by providing a 23 times gravity solar power generation turbine in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lens Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing alloys by vertically providing a 24 times gravity solar power generation turbine with a turbine blade cross section (4X) of 24 times + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combination engines that heat the air by compressed air acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine with 6 times the turbine blade cross section (4X) in multiple stages + battery storage driven various ships like kind + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a 7 times gravity solar thermal power generation turbine with 7 times of turbine blade cross section (4X) + battery driven various vessels like the main body + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on + thermal expansion ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 9 times the turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + battery-driven various ships and other kind of ships + heat retention ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 11 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a turbine blade section (4X) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on. 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + battery powered by various ships etc. + warmth increase ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 14 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 15-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing 17 times of gravity solar thermal power generation turbines with 17 times the turbine blade cross section (4X) + battery driven various vessels like the main body + heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 18 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar thermal power generation turbine with 20 times the turbine blade cross section (4X) + battery powered by various ships etc. + warmth increase ball raising device ( 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 24 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in ascending order + width of long lens increase compression of compressed air to approach 1200 degrees + target same water volume maximum power generation multi-stage multistage rotor blade gravity solar thermal turbine two kinds multistage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine with 6 times the turbine blade cross section (4X) in multiple stages + battery storage driven various ships like kind + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in ascending order + width of long lens increase compression of compressed air to approach 1200 degrees + target same water volume maximum power generation multi-stage multistage rotor blade gravity solar thermal turbine two kinds multistage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a 7 times gravity solar thermal power generation turbine with 7 times of turbine blade cross section (4X) + battery driven various vessels like the main body + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in ascending order + width of long lens increase compression of compressed air to approach 1200 degrees + target same water volume maximum power generation multi-stage multistage rotor blade gravity solar thermal turbine two kinds multistage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing high temperature alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on + thermal expansion ball raising device ( 2F) use liquid indium containing alloy in ascending order + width of long lens increase compression of compressed air to approach 1200 degrees + target same water volume maximum power generation multi-stage multistage rotor blade gravity solar thermal turbine two kinds multistage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 9 times the turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on 2F) use liquid indium containing alloy in ascending order + width of long lens increase compression of compressed air to approach 1200 degrees + target same water volume maximum power generation multi-stage multistage rotor blade gravity solar thermal turbine two kinds multistage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Increase the power of the thermal mass turbine and thermal energy turbine + increase the amount of critical power vertically downwards + Various energy storage cycle combined engine to rotate the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Then approach a temperature of 1200 degrees + A variety of energy storage cycle engines that rotate heavier materials vertically downward and drive the warmth mass turbine and warmth heat capacity turbine with increased power generation capacity + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens And move the liquid indium containing alloy up to 1200 ° C vertically downward as accelerated rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power output + various energy storage cycle combination to rotate the solar heater on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens And move the liquid indium containing high temperature alloy vertically downward to accelerate rolling contact with high temperature alloy to drive the heat retaining mass turbine and heat retaining heat turbine of increasing power generation amount + various energy storage cycles to rotate the solar heater on the water surface Coalition agency.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens And move the liquid indium containing alloy to air by heating the air by compressed air acceleration to drive the heat retaining mass turbine and heat retaining heat turbine of the power generation increase + various energy preservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically by providing an 18 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Turbine blade cross section (4X) 20 times gravity solar thermal power generation facility equipment method to make the turbine blade a total + power increase ball (2E) to accelerate as a small diameter + long lens width increase heating air is compressed to 1200 degrees compressed Approximate acceleration of liquid indium containing high temperature alloy vertically downward acceleration of heat generation mass turbine and heat retention heat turbine of increase power generation + various energy storage cycle combined engine which rotates the sun heater on the water surface.   Turbine blade cross section (4X) 21 times gravity solar thermal power generation facility equipment method to make the total turbine blade generating power + power increase sphere (2E) to accelerate small diameter + width increase heating air of long lens compressed air temperature 1200 degrees To move the liquid indium containing an alloy of heavier material vertically downward to drive the warmth mass turbine and warmth heat capacity turbine of increasing electric power generation capacity + various energy storage cycle combined engines that rotate the solar heater on the water surface .   Turbine blade cross section (4X) 22 times gravity solar thermal power generation facility equipment method to make the turbine blade total + power increase ball (2E) to accelerate small diameter + wide lens width increase heating air is compressed to 1200 degrees compressed Close to the liquid + containing heavy metal alloy vertically downward accelerated rolling contact with power generation to increase the heat retention mass turbine and heat retention heat energy turbine drive + solar power generator tilt rotation on the water surface .   Equipment method to make the turbine blade cross section (4X) 23 times the gravity solar thermal power generation output generating turbine blade all + accelerate the power increase sphere (2E) to a small diameter + width increase heating air compression of long lens 1200 degrees Move the liquid indium containing the alloy of heavier material to the vertical downward acceleration as the rolling contact in the downward vertical direction to drive the warmth mass turbine and warmth heat capacity turbine of increasing electric power generation capacity + various energy conservation cycle combination to rotate the solar heater on the water surface organ.   Equipment method to make the turbine blade section (4X) 24 times gravity solar power generation output generating turbine blade all + accelerate the power increase sphere (2E) to a small diameter + width increase heating air compression of long lens 1200 degrees Close to the + + Various energy storage cycle combined engine that accelerates the liquid indium containing the alloy of heavy material to drive the warmth mass turbine and warmth thermal power turbine of increasing electric power generation + tilt rotation of the solar heater on the water surface.   Structure and method for vertically accelerating liquid indium containing high temperature alloy by providing 25 times of gravity solar power generation turbines with 25 times the turbine blade cross section (4X) + driving turbines with small diameter of power increase ball (2E) + length Lens width expansion Heating air compressed to approach 1200 degrees + specific criticality accelerated downward vertically power generation Heat retention mass turbine and heat retention heat energy turbine drive + solar heater tilt rotation on water surface Energy Conservation Cycle Coalition Agency.   Structure and method for vertically accelerating liquid indium containing high temperature alloy by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + Drive turbine with the power increase sphere (2E) as a small diameter + Long Compress the lens width increase heating air to approach 1200 degrees + accelerate heavier material vertically downward to drive the warmth mass turbine and warmth thermal energy turbine of the power generation increase + tilt rotation of the solar heater on the water surface Let various energy conservation cycle united engine.   Structure and method for vertically elevating liquid indium containing high temperature alloy by providing gravity solar thermal power generation turbines with doubled turbine blade cross section (4X) in multiple stages and driving the acceleration turbine with small diameter of power increase ball (2E) + length Lens width increase Heating air to compress and approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards Rolling contact with increasing power generation Thermal insulation mass turbine and thermal insulation heat turbine driving + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method for vertically accelerating liquid indium containing high-temperature alloy by providing a multistage gravity solar power generation turbine with triple turbine blade cross-section (4X) in multiple stages + Drive turbine with an increase in power increase sphere (2E) Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation Heat retention mass turbine and heat retention heat turbine drive + Solar heater on water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method for vertically accelerating liquid indium containing high temperature alloy by providing a multistage gravity solar power generation turbine with 4 times the turbine blade cross section (4X) + driving turbine with the power increasing ball (2E) as a small diameter + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress air with air compressed by heating air to drive the heat retention mass turbine and heat retention heat energy turbine of power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar power generation turbines of 5 times the turbine blade cross-section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy in rise storage + compression of long lens width increase heating air to approach 1200 degrees + ratio critical material vertically downward acceleration power generation heat retention mass turbine and heat retention heat turbine drive + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by arranging gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + Length of lens extended width heating air compression to make it approach 1200 degrees + High temperature alloy containing liquid indium accelerated vertically downward to maintain thermal mass turbine and thermal energy turbine Drive + + Various heat preservation cycle combined engine which tilts and rotates a solar thermal suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar thermal power generation turbine in 7 stages of turbine blade cross section (4X) + full charge electric house prime + heat retention increasing ball raising device (2F) Use liquid indium containing alloy at elevated storage + compression width of long lens heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy vertically accelerated accelerated rolling contact as heat retention mass turbine of increased power generation and A variety of energy storage cycle combined engine that drives the heat retention heat turbine + tilts the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by arranging gravity solar power generation turbines of 8 times the turbine blade cross section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + length of lens wide width increase heating air compressed to approach 1200 degrees + high temperature alloy containing liquid indium vertically accelerated accelerated rolling contact thermal mass turbine with increased output And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 9 times the turbine blade cross section (4X) in multiple stages + making a full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention mass of power generation increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method of 10 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate the liquid crystal containing high temperature alloy vertically downward to increase the amount of power generation Heat retention mass turbine and heat retention heat energy turbine are driven + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Structure and method of gravity solar thermal power generation of 11 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball increase device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing the alloy of heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation increase + water surface of the solar heater A variety of energy storage cycle coalescing engines that tilt and rotate on top.   The structure and method of 12 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use liquid indium containing alloy in ball increase device (2F) + long lens Compress the air with increased width heating to approach 1200 degrees + accelerate the liquid crystal containing high temperature alloy of heavy material vertically downward as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of heat generating capacity + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy of heavier material with compressed air as a rolling contact and drive the heat retaining mass turbine and heat retaining heat turbine of heat generating capacity increase + solar power heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing high temperature alloy of heavy substance to accelerate the power generation warmth mass turbine and warmth thermal power turbine + tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the liquid indium containing the alloy vertically by providing 17 times of gravity solar power generation turbines with 17 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact vertically downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium spheres containing high temperature alloys vertically downward by providing a turbine blade section (4X) with 18 times gravity solar power generation turbine in multiple stages + heat and cold heat utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + include high temperature alloy Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power output as accelerated rolling contact with liquid indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade section (4X) 20 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid crystal containing the alloy vertically downward to increase the amount of power generation Heat retention mass turbine and heat retention heat energy turbine drive + solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 21 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing the alloy of heavier material vertically downward to drive the warmth mass turbine and warmth thermal energy turbine of the power generation increase + solar heating Energy storage cycle combined engine that tilts and rotates the unit on the water surface.   Equipment method to make the turbine blade cross section (4X) 22 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing an alloy of heavy material vertically accelerated downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of heat generation increase + solar heating Energy storage cycle combined engine that tilts and rotates the unit on the water surface.   Equipment method to make the turbine blade cross section (4X) 23 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air of long lens to make it approach 1200 degrees + liquid indium containing heavy material alloy vertically accelerated downward as rolling contact with power generation heat retention mass turbine and heat retention heat source turbine drive + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 24 times gravity solar power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and moves it closer to 1200 degrees + accelerates liquid indium containing an alloy of a heavy substance to drive a warm-keeping mass turbine and warm-keeping heat turbine with an increase in power output + solar heater on the water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate the critical substance vertically by providing 25 times of gravity solar thermal power generation turbines of 25 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing rise storage alloy + long lens width increase heat compression air to approach 1200 degrees + containing high temperature alloy of heavier material Various energy storage cycle combined engines that rotate liquid indium vertically downward and drive the heat retention mass turbine and heat retention heat turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 4 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar power generation turbines of 5 times the turbine blade cross-section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy in rise storage + compression of long lens width increase heating air to approach 1200 degrees + ratio critical material vertically downward acceleration power generation heat retention mass turbine and heat retention heat turbine drive + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by arranging gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + Length of lens wide increase Heating air to be compressed to approach 1200 degrees + Heavy material accelerated vertically downward to increase power generation Thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar thermal power generation turbine in 7 stages of turbine blade cross section (4X) + full charge electric house prime + heat retention increasing ball raising device (2F) Use liquid indium containing alloy at elevated storage + compression width of long lens heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy vertically accelerated accelerated rolling contact as heat retention mass turbine of increased power generation and A variety of energy storage cycle combined engine that drives the heat retention heat turbine + tilts the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by arranging gravity solar power generation turbines of 8 times the turbine blade cross section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + length of lens wide width increase heating air compressed to approach 1200 degrees + high temperature alloy containing liquid indium vertically accelerated accelerated rolling contact thermal mass turbine with increased output And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 9 times the turbine blade cross section (4X) in multiple stages + making a full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention mass of power generation increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method of 10 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate the liquid crystal containing high temperature alloy vertically downward to increase the amount of power generation Heat retention mass turbine and heat retention heat energy turbine are driven + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Structure and method of gravity solar thermal power generation of 11 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball increase device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing high temperature alloy of heavier material vertically downward to drive the warmth mass turbine and warmth heat power turbine with increased power output + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   The structure and method of 12 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use liquid indium containing alloy in ball increase device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated with compressed air as rolling contact with power generating heat retention mass turbine and heat retention heat turbine driving + solar heater on water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy of heavier material with compressed air as a rolling contact and drive the heat retaining mass turbine and heat retaining heat turbine of heat generating capacity increase + solar power heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing high temperature alloy of heavy substance to accelerate the power generation warmth mass turbine and warmth thermal power turbine + tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing alloys by vertically arranging the gravity solar thermal power generation turbine of 16 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine and accelerate the solar power heater on the water surface by accelerating to accelerate power generation.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 18 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 19-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combination engines that heat the air by compressed air acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Equipment method to make the turbine blade section (4X) 20 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid crystal containing the alloy vertically downward to increase the amount of power generation Heat retention mass turbine and heat retention heat energy turbine drive + solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 21 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing the alloy of heavier material vertically downward to drive the warmth mass turbine and warmth thermal energy turbine of the power generation increase + solar heating Energy storage cycle combined engine that tilts and rotates the unit on the water surface.   Equipment method to make the turbine blade cross section (4X) 22 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing an alloy of heavy material vertically accelerated downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of heat generation increase + solar heating Energy storage cycle combined engine that tilts and rotates the unit on the water surface.   Equipment method to make the turbine blade cross section (4X) 23 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air of long lens to make it approach 1200 degrees + liquid indium containing heavy material alloy vertically accelerated downward as rolling contact with power generation heat retention mass turbine and heat retention heat source turbine drive + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 24 times gravity solar power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing high temperature alloy of heavy material to drive the warmth mass turbine and warmth thermal energy turbine of the power generation increase + water surface of the solar heater A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + solar energy with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 26-fold gravity solar power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 4 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar power generation turbines of 5 times the turbine blade cross-section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy in rise storage + compression of long lens width increase heating air to approach 1200 degrees + ratio critical material vertically downward acceleration power generation heat retention mass turbine and heat retention heat turbine drive + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by arranging gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + Length of lens wide increase Heating air to be compressed to approach 1200 degrees + Heavy material accelerated vertically downward to increase power generation Thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar thermal power generation turbine in 7 stages of turbine blade cross section (4X) + full charge electric house prime + heat retention increasing ball raising device (2F) Use liquid indium containing alloy at elevated storage + compression width of long lens heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy vertically accelerated accelerated rolling contact as heat retention mass turbine of increased power generation and A variety of energy storage cycle combined engine that drives the heat retention heat turbine + tilts the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by arranging gravity solar power generation turbines of 8 times the turbine blade cross section (4X) in multiple stages + making full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy at elevated storage + length of lens wide width increase heating air compressed to approach 1200 degrees + high temperature alloy containing liquid indium vertically accelerated accelerated rolling contact thermal mass turbine with increased output And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 9 times the turbine blade cross section (4X) in multiple stages + making a full-fledged house prime + heat retention ball raising device (2F) Use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention mass of power generation increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method of 10 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate the liquid crystal containing high temperature alloy vertically downward to increase the amount of power generation Heat retention mass turbine and heat retention heat energy turbine are driven + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Structure and method of gravity solar thermal power generation of 11 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball increase device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 degrees + accelerate the liquid indium containing the alloy of heavier material with compressed air to drive the heat retaining mass turbine and heat retaining heat turbine of power generation increase + water surface of the solar heater A variety of energy storage cycle coalescing engines that tilt and rotate on top.   The structure and method of 12 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use liquid indium containing alloy in ball increase device (2F) + long lens Compress the air with increased width heating to get closer to 1200 degrees + liquid indium containing heavy metal alloy accelerated with compressed air as rolling contact with power generating heat retention mass turbine and heat retention heat turbine driving + solar heater on water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to make it approach 1200 degrees + accelerate the liquid indium containing the alloy of heavier material with compressed air as a rolling contact and drive the heat retaining mass turbine and heat retaining heat turbine of heat generating capacity increase + solar power heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to get closer to 1200 degrees + accelerate the liquid indium containing the alloy of heavy material to drive the warmth mass turbine and warmth heat capacity turbine of the power generation increase + tilt rotation of the solar heater on the water surface Let various energy conservation cycle united engine.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Drive various heat preservation mass turbines and heat retention heat energy turbines to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically by providing an 18 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically by providing a 19-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold utilization utilizing heat + absorption of sunlight with long lenses Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy storage cycle combination engines that heat the air by compressed air acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Equipment method to make the turbine blade section (4X) 20 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compress the air to increase the width of the long lens and move it towards 1200 degrees + accelerate the liquid crystal containing the alloy vertically downward to increase the amount of power generation Heat retention mass turbine and heat retention heat energy turbine drive + solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 21 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates the liquid indium containing the alloy of heavier material vertically downward to drive the warmth mass turbine and warmth thermal energy turbine of the power generation increase + solar heating Energy storage cycle combined engine that tilts and rotates the unit on the water surface.   Equipment method to make the turbine blade cross section (4X) 22 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + Liquid indium containing an alloy of heavy material vertically accelerated downwards as rolling contact to drive the heat retaining mass turbine and heat retaining heat turbine of heat generation increase + solar heating Energy storage cycle combined engine that tilts and rotates the unit on the water surface.   Equipment method to make the turbine blade cross section (4X) 23 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the air of long lens width increase heating to approach 1200 degrees + liquid indium containing alloy of heavier material accelerates rolling contact and drives the warmth mass turbine and warmth heat power turbine of warm power generation increase + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 24 times gravity solar power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically by providing 25 times of gravity solar thermal power generation turbines of 25 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing a 26-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 7 times gravity solar thermal power generation turbines in 7 stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 9 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 10 times the turbine blade cross-section (4X) in multiple stages + Fully charge house buildup + Heat retention increasing ball lifter 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 12 times gravity solar power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of 15 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 16 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy with ball increaser (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 17-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 18 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 23 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 24 times gravity solar power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 25 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) twice the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) triple the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 7 times gravity solar thermal power generation turbines in 7 stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 8 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 9 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 10 times the turbine blade cross-section (4X) in multiple stages + Fully charge house buildup + Heat retention increasing ball lifter 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 12 times gravity solar power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically downward in a heat retention turbine by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 15 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 16 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy with ball increaser (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of 17-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 18 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 24 times gravity solar power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 25 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) twice the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) triple the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) four times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 7 times gravity solar thermal power generation turbines in 7 stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 8 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing gravity solar power generation turbines of 9 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 10 times the turbine blade cross-section (4X) in multiple stages + Fully charge house buildup + Heat retention increasing ball lifter 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 12 times gravity solar power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically downward in a heat retention turbine by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically in a heat retaining turbine by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of 15 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 16 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy with ball increaser (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of 17-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of 18 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   The structure and method of 19 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 25 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) twice the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) triple the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) four times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 5 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 7 times gravity solar thermal power generation turbines in 7 stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 8 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing gravity solar power generation turbines of 9 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage gravity solar thermal power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 12 times gravity solar power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically downward in a heat retention turbine by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically in a heat retaining turbine by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically in a heat retaining turbine by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of gravity solar thermal power generation of 16 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy with ball increaser (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 17-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of 18 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   The structure and method of 19 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 20 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + solar energy with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) twice the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) triple the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) four times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 5 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 6 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically by providing 7 times gravity solar thermal power generation turbines in 7 stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 8 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing gravity solar power generation turbines of 9 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage gravity solar thermal power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4X) with 11 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 12 times gravity solar power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically downward in a heat retention turbine by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) + heat buildup ball lifter 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically in a heat retaining turbine by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically in a heat retaining turbine by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the turbine blade cross section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + Fully charge house build up + Heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of 17-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 18 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   The structure and method of 19 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of 20 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 21-fold gravity solar thermal power generation of turbine blade cross section (4X) + battery drive various automotive primes + heat retention increase ball lift device (2F) to use liquid indium containing ascent as alloy and save + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Configuration and method for vertically accelerating liquid indium containing a turbine blade cross section (4X) and 22 times gravity solar power generation alloy ++ Heat retention and increase use of liquid indium containing alloy in a ball lifter (2F) + long lens Compress the air to increase the width of the heating air to approach 1200 degrees + specific critical power vertically downward accelerating the heat retention mass turbine and heat retention heat turbine to increase power generation + various energy to rotate the solar heater on the water surface Preservation cycle union agency.   Configuration and method for vertically accelerating liquid indium containing a turbine blade cross section (4 ×) and gravity solar power generation alloy having a magnification of 23 times ++ Heat retention and increase use of liquid indium containing alloy in a ball raising device (2F) + long lens Compress the air of increased width heating to approach 1200 degrees + accelerate heavier material vertically downward to drive the warmth mass turbine and warmth thermal energy turbine of warm power generation increase + tilt rotation of the solar heater on the water surface Various energy conservation cycle union engine.   Configuration and method for vertically accelerating liquid indium containing a turbine blade cross section (4 ×) and gravity solar power generation alloy having a magnification of 24 times ++ Heat retention and increase use of liquid indium containing alloy in a ball raising device (2F) + long lens Compress the air to increase the width of the heating air to approach 1200 degrees + accelerate the liquid indium containing alloy downward downward as rolling contact to drive the warmth mass turbine and warmth thermal mass turbine of warmth power increase + solar heater on the water surface Inclined engine with various energy storage cycles.   Configuration and method for vertically accelerating liquid indium containing a 25 × gravity solar power generation alloy with a turbine blade cross section (4 ×) ++ Heat retention increase use and storage of liquid indium containing alloy in a ball raising device (2F) + long lens Compress the air of width increase heating to make it approach 1200 degrees + accelerate the liquid crystal containing high temperature alloy vertically downward as rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine of power generation increase + solar heater on the water surface The various energy storage cycles combined engine to rotate at tilt.   Configuration and method for vertically accelerating liquid indium containing a turbine blade section (4X) and a gravity solar power generation alloy which is doubled ++ Heat retention and increase use of liquid indium containing alloy in a ball raising device (2F) + long lens Increase the width of the heating air Compress the air to approach 1200 degrees + Liquid indium containing the alloy Compress the air by heating the air by heating the air to drive the heat retention mass turbine and heat retention heat energy turbine + Water surface of the solar heater A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Configuration and method for vertically accelerating a liquid indium containing a gravity solar power generation alloy having a turbine blade cross-section (4 ×) 3 times vertically ++ Heat retention and increase use of liquid indium containing alloy in a ball raising device (2F) + long lens Compress the air to increase the width of the heating air to approach 1200 degrees + specific critical power vertically downward accelerating the heat retention mass turbine and heat retention heat turbine to increase power generation + various energy to rotate the solar heater on the water surface Preservation cycle union agency.   Configuration and method for vertically accelerating liquid indium containing a 4 × gravity solar power generation alloy with turbine blade cross section (4 ×) ++ Heat retention and increase use of liquid indium containing alloy in a ball lifter (2F) + long lens Compress the air of increased width heating to approach 1200 degrees + accelerate heavier material vertically downward to drive the warmth mass turbine and warmth thermal energy turbine of warm power generation increase + tilt rotation of the solar heater on the water surface Various energy conservation cycle union engine.   Configuration and method for vertically accelerating liquid indium containing a 5 × gravity solar power generation alloy with turbine blade cross section (4 ×) ++ Heat retention and increase use of liquid indium containing alloy in a ball lifter (2F) + long lens Compress the air to increase the width of the heating air to approach 1200 degrees + accelerate the liquid indium containing alloy downward downward as rolling contact to drive the warmth mass turbine and warmth thermal mass turbine of warmth power increase + solar heater on the water surface Inclined engine with various energy storage cycles.   Configuration and method for vertically accelerating liquid indium containing a turbine blade cross section (4 ×) and gravity solar power generation alloy having a magnification of 6 times ++ Heat retention and increase use of liquid indium containing alloy in a ball lifter (2F) + long lens Compress the air of width increase heating to make it approach 1200 degrees + accelerate the liquid crystal containing high temperature alloy vertically downward as rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine of power generation increase + solar heater on the water surface The various energy storage cycles combined engine to rotate at tilt.   Configuration and method for vertically accelerating liquid indium containing a 7-fold gravity solar power generation alloy with turbine blade cross section (4X) ++ Heat retention increase use and storage of liquid indium containing alloy in a ball rising device (2F) + long lens Increase the width of the heating air Compress the air to approach 1200 degrees + Liquid indium containing the alloy Compress the air by heating the air by heating the air to drive the heat retention mass turbine and heat retention heat energy turbine + Water surface of the solar heater A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 9 times the turbine blade cross-section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 10 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and the like + fuel-warming ball lifter (2F) 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + thermal insulation increasing ball lifter (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 17-fold gravity solar thermal power generation turbine with 17 times the turbine blade cross section (4X) + battery-powered various ships and other kind of ships + heat retention ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage 18-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 20 times gravity solar thermal power generation turbine at 20 times the turbine blade cross-section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 24 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so forth + Thermal retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + battery-powered various ships and so forth + Heat retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 6 times the turbine blade cross-section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 7-fold gravity solar thermal power generation turbine at a multistage turbine blade cross-section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 9 times the turbine blade cross-section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 10 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and the like + fuel-warming ball lifter (2F) 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + thermal insulation increasing ball lifter (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 17-fold gravity solar thermal power generation turbine with 17 times the turbine blade cross section (4X) + battery-powered various ships and other kind of ships + heat retention ball raising device (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage 18-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) + battery-driven various ships and so on + warmer increase ball lifter (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress the air to approach 1200 degrees + Specific critical materials accelerated downward vertically Heat retention mass turbine and heat retention heat capacity turbine to increase power generation + Various energy storage cycle combined engines that rotate the solar heater on the water surface .   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress air to approach 1200 degrees + accelerate heavier materials vertically downward to drive warmth mass turbines and warmth heat capacity turbines with increased power output + various energy storage cycles to tilt the sun heater on the water surface Coalition agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress air to approach 1200 degrees + Accelerate liquid downwards with liquid indium containing alloy as rolling contact with power generation Increase heat retention mass turbine and heat retention heat energy turbine drive + Rotate various kinds of solar heater on water surface Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 22 times the turbine blade cross-section (4X) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress the air to approach 1200 degrees + Accelerate the downward rotation of liquid indium containing high temperature alloy as vertically downward rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power output + Tilt the sun heater on the water surface Various energy conservation cycle union engine.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 23 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Collect linearly in absorber + raise heat retention as much as possible with heat retention increase ball lift device (2F) + raise storage of liquid indium containing alloy with heat retention increase ball lift device (2F) + width increase heating of long lens Compress the air and move it closer to 1200 degrees + Liquid indium containing an alloy Compress the air by heating the air by heating air to drive the heat retention mass turbine and heat retention heat turbine to increase power generation + Tilt the sun heater on the water surface and rotate it Let various energy conservation cycle united engine.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 24 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + solar energy with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 4 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 5 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 6 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Turbine blade cross section (4X) 7 times gravity solar thermal power generation facility equipment method to make the turbine blade fully build up + factory electrification to build up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 8 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 9 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage gravity solar thermal power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4X) with 11 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 12-fold gravity solar thermal power generation turbine with turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing 13 times of gravity solar thermal power generation turbines with a 13x turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing an alloy vertically in a heat retaining turbine by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4 ×) 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the turbine blade cross section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + Fully charge house build up + Heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing 17 times of gravity solar thermal power generation turbines with 17 times the turbine blade cross section (4X) + heat buildup to increase the heat buildup 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 18 times gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross-section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of 20 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 21-fold gravity solar thermal power generation of turbine blade cross section (4X) + battery drive various automotive primes + heat retention increase ball lift device (2F) to use liquid indium containing ascent as alloy and save + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 22 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   The structure and method of 23 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   The structure and method of gravity solar thermal power generation of 24 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method for accelerating liquid indium containing high temperature alloy vertically by providing 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) ++ Heat retention increasing ball raising device (2F) containing liquid indium containing alloy Upward storage use + Long lens width width increase heating air compression to approach 1200 degrees + ratio critical material vertically downward acceleration power generation heat retention mass turbine and heat retention heat turbine drive + solar heater water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method for vertically elevating liquid indium containing high temperature alloy by providing double stages of gravity solar power generation turbines by doubling turbine blade cross section (4X) ++ Heat retention increasing ball raising device (2F) liquid indium containing alloy Upward storage use + Compression of the width of the long lens of the long lens and compression of the heating air to approach 1200 degrees + Acceleration of heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine of the increase of power generation amount + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   A structure and method for vertically accelerating liquid indium containing high temperature alloy by providing a turbine blade section (4 ×) with triple gravity solar power generation turbine in multiple stages ++ Heat retention increasing ball raising device (2F) liquid indium containing alloy Uplift storage Use + compression of air for width increase heating of long lens to approach 1200 degrees + liquid indium containing alloy vertically accelerated downward as accelerated rolling contact power generation heat retention mass turbine and heat retention heat turbine drive + sun Various energy storage cycle combined engines that tilt and rotate the light heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar power generation turbines with quadruple turbine blade cross sections (4X) in multiple stages ++ Heat retention increasing ball raising device (2F) liquid indium containing alloy Uplift storage use + Compression of air for width increase heating of long lens to approach 1200 ° C. + Liquid indium containing high temperature alloy is accelerated vertically downward accelerated rolling contact as a power generation heat retention mass turbine and heat retention heat power turbine are driven + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar power generation turbines of 5 times the turbine blade cross section (4X) in multiple stages ++ Heat retention increasing ball raising device (2F) liquid indium containing alloy Uplift storage use + Compressed air of width increase heating of long lens Close to 1200 degrees + Liquid indium containing alloy Liquid air is heated by compressed air acceleration of air to drive heat retention mass turbine and heat retention heat turbine of power generation increase + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 6 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Turbine blade cross section (4X) 7 times gravity solar thermal power generation facility equipment method to make the turbine blade fully build up + factory electrification to build up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 8 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 9 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 10 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4X) with 11 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 12-fold gravity solar thermal power generation turbine with turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing 13 times of gravity solar thermal power generation turbines with a 13x turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 15 times of gravity solar power generation turbines with 15 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the turbine blade cross section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + Fully charge house build up + Heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing 17 times of gravity solar thermal power generation turbines with 17 times the turbine blade cross section (4X) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 18 times gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross-section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the heat buildup 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of 21-fold gravity solar thermal power generation of turbine blade cross section (4X) + battery drive various automotive primes + heat retention increase ball lift device (2F) to use liquid indium containing ascent as alloy and save + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 22 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   The structure and method of 23 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   The structure and method of gravity solar thermal power generation of 24 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 25-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 4 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross section (4X) in multiple stages + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Turbine blade cross section (4X) 7 times gravity solar thermal power generation facility equipment method to make the turbine blade fully build up + factory electrification to build up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 8 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 9 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on.   Equipment method to make the turbine blade cross section (4X) 10 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 11 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 12-fold gravity solar thermal power generation turbine with turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing 13 times of gravity solar thermal power generation turbines with a 13x turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 15 times of gravity solar power generation turbines with 15 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing 17 times of gravity solar thermal power generation turbines with 17 times the turbine blade cross section (4X) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 18 times gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross-section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing 21 times of gravity solar thermal power generation turbines with 21 times the turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of gravity solar thermal power generation of 22 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   The structure and method of 23 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   The structure and method of gravity solar thermal power generation of 24 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of 25-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of double gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 4 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross section (4X) in multiple stages + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar power generation turbine with 7 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 8 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 9 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 10 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 11 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 12 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing 13 times of gravity solar thermal power generation turbines with a 13x turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 15 times of gravity solar power generation turbines with 15 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 17 times of gravity solar thermal power generation turbines with 17 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 18 times gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross-section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the heat buildup 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing 21 times of gravity solar thermal power generation turbines with 21 times the turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 22 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   The structure and method of 23 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   The structure and method of gravity solar thermal power generation of 24 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of 25-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of double gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 3 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 4 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross section (4X) in multiple stages + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar power generation turbine with 7 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by arranging a gravity solar thermal power generation turbine with 8 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 9 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 10 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 11 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 12 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 13 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 15 times of gravity solar power generation turbines with 15 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 17 times of gravity solar thermal power generation turbines with 17 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4X) with 18 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross-section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing 21 times of gravity solar thermal power generation turbines with 21 times the turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 22 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   The structure and method of gravity solar thermal power generation of 24 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in a ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 25-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of double gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 3 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 4 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross section (4X) in multiple stages + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar power generation turbine with 7 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by arranging a gravity solar thermal power generation turbine with 8 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 10 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 11 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 12 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 13 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 14 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically by providing 15 times of gravity solar power generation turbines with 15 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 17 times of gravity solar thermal power generation turbines with 17 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4X) with 18 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 20 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the heat buildup 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing 21 times of gravity solar thermal power generation turbines with 21 times the turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 22 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the turbine blade section (4X) by 24 times the gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of 25-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of double gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 3 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 4 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross section (4X) in multiple stages + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar power generation turbine with 7 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by arranging a gravity solar thermal power generation turbine with 8 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 11 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 12 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 13 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 14 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 17 times of gravity solar thermal power generation turbines with 17 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4X) with 18 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing 21 times of gravity solar thermal power generation turbines with 21 times the turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 22 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the turbine blade section (4X) by 24 times the gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of double gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 3 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 4 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar power generation turbine with 7 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by arranging a gravity solar thermal power generation turbine with 8 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 12 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 13 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 14 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically by providing 17 times of gravity solar thermal power generation turbines with 17 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing the turbine blade section (4X) with 18 times gravity solar power generation turbine in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 22 times gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the turbine blade section (4X) by 24 times the gravity solar thermal power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of gravity solar thermal power generation of 3 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 4 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 5 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Configuration and method for vertically accelerating liquid indium containing 8 times gravity solar power generation alloy with turbine blade cross section (4X) + air tube air suction heat recovery heat recovery and superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heat compression air to approach 1200 degrees + ratio critical material vertically downward acceleration Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 9 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention increase ball lifter (2F) to lift liquid indium containing alloy + use long lens width increase heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating a liquid indium containing a 10 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a gravity solar power generation alloy with 11 times the gravity of a turbine blade cross section (4X) + air tube air is subjected to suction compression heat recovery to be superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 12-fold gravity solar power generation alloy with turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and store liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy compression air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 13-fold gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heat compression air to approach 1200 degrees + ratio critical material vertically downward acceleration Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 14-fold gravity solar thermal power generation alloy with a turbine blade cross section (4X) + air tube air with suction and heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention increase ball lifter (2F) to lift liquid indium containing alloy + use long lens width increase heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 15-fold gravity solar power generation alloy with turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 16 times gravity solar power generation alloy with turbine blade cross section (4X) + air tube air suction heat recovery heat recovery and superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 17-fold gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction heat recovery heat recovery and superheated steam (50) and compressed air (28a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and store liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy compression air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage 18-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 20 times gravity solar thermal power generation turbine at 20 times the turbine blade cross-section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 24 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so forth + Thermal retention ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heat compression air to approach 1200 degrees + specific critical material vertically downward accelerated power capacity increase thermal mass turbine and thermal energy thermal turbine Drive + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + battery-powered various ships and so forth + Heat retention ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 6 times the turbine blade cross-section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 7-fold gravity solar thermal power generation turbine at a multistage turbine blade cross-section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + battery-powered various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the upper storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material vertically downward acceleration to increase power generation warmth mass turbine and warmth heat A variety of energy storage cycle coalescing engines that drive the turbine + tilt the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 9 times the turbine blade cross-section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 10 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 12 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and the like + fuel-warming ball lifter (2F) 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 13-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing alloy in vertical downward accelerated thermal contact to increase heat retention mass turbine as generation rolling contact And various energy storage cycle combined engine which drives the heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 14-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 15-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing the turbine blade section (4X) with 16 times gravity solar thermal power generation turbine in multiple stages + battery-powered various ships and so on + thermal insulation increasing ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 17-fold gravity solar thermal power generation turbine with 17 times the turbine blade cross section (4X) + battery-powered various ships and other kind of ships + heat retention ball raising device (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a multistage 18-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) + battery-driven various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in the rise + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated liquid heat retention mass as power generation increase as accelerated rolling contact Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by arranging the gravity solar thermal power generation turbine of 19 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 20 times gravity solar thermal power generation turbine at 20 times the turbine blade cross-section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 22-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 23 times gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships and so on + warmer increase ball lifter (2F 2.) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + liquid indium containing alloy heat air by compressed air acceleration heat retention temperature increase heat retention A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine of 24 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + thermal expansion ball raising device (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a 25-fold gravity solar thermal power generation turbine in multiple stages with a turbine blade cross section (4X) + battery-powered various ships, etc. + heat retention ball lift device (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a gravity solar thermal power generation turbine with doubled turbine blade cross-section (4X) in multiple stages + battery-powered various ships and so forth + Thermal retention ball raising device (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + battery-driven various ships and so on + warmth increase ball raising device (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + battery-powered various ships and so forth + Heat retention ball raising device (2F A) Liquid indium containing alloys are stored and stored + Long lens width increased Heating air compressed and approached to 1200 degrees + Same water mass aiming for maximum power generation Two types of rotor blade gravity solar thermal turbines in two stages in multiple stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a five-fold gravity solar power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Increase the power of the thermal mass turbine and thermal energy turbine + increase the amount of critical power vertically downwards + Various energy storage cycle combined engine to rotate the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 6 times the turbine blade cross section (4X) in multiple stages + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens Then approach a temperature of 1200 degrees + A variety of energy storage cycle engines that rotate heavier materials vertically downward and drive the warmth mass turbine and warmth heat capacity turbine with increased power generation capacity + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 7 times gravity solar power generation turbine with 7 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens And move the liquid indium containing alloy up to 1200 ° C vertically downward as accelerated rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power output + various energy storage cycle combination to rotate the solar heater on the water surface organ.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by arranging a gravity solar thermal power generation turbine with 8 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy with long lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens And move the liquid indium containing high temperature alloy vertically downward to accelerate rolling contact with high temperature alloy to drive the heat retaining mass turbine and heat retaining heat turbine of increasing power generation amount + various energy storage cycles to rotate the solar heater on the water surface Coalition agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 9-fold gravity solar power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + heat lens Collect linearly in absorber + increase heat retention with ball lift device (2F) + increase heat retention with ball lift device (2F) use liquid indium containing alloy to rise and save + compress air of width increase heating of long lens And move the liquid indium containing alloy to air by heating the air by compressed air acceleration to drive the heat retaining mass turbine and heat retaining heat turbine of the power generation increase + various energy preservation to rotate the solar heater on the water surface Cycle coalescing agency.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 10 times the turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade section (4X) 15 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically by providing 20 times of gravity solar power generation turbines with 20 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to make sunlight a heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a 25 times gravity solar thermal power generation turbine in multiple stages of turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a five-fold gravity solar thermal power generation turbine with a 5 × turbine blade cross section (4 ×) 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of gravity solar thermal power generation of 6 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 10 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 11 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 16 times the gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade section (4X) 20 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   The structure and method of accelerating the critical substance vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 25 times of gravity solar thermal power generation turbines of 25 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of double the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a five-fold gravity solar thermal power generation turbine with a 5 × turbine blade cross section (4 ×) 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 6 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of 7 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automotives prime + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of 10 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 11 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball increase device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   A structure and method for accelerating liquid indium containing high temperature alloys vertically downward by providing a multistage solar power generation turbine with 12 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 17 times the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade section (4X) 20 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 21 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically by providing 22 times gravity solar thermal power generation turbines with 22 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 25 times of gravity solar thermal power generation turbines of 25 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 3 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a five-fold gravity solar thermal power generation turbine with a 5 × turbine blade cross section (4 ×) 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 6 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the 7 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of gravity solar thermal power generation of 8 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of 10 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 11 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball increase device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   The structure and method of 12 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use liquid indium containing alloy in ball increase device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing 13 times of gravity solar power generation turbines with 13 times the blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 18 times gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade section (4X) 20 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 21 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 22 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing 23 times gravity solar thermal power generation turbines in multiple stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 25 times of gravity solar thermal power generation turbines of 25 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing multistage gravity solar thermal power generation turbines with quadruple turbine blade cross-sections (4X) + multistage electric housing prime + heat retention increase ball lifter ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a five-fold gravity solar thermal power generation turbine with a 5 × turbine blade cross section (4 ×) 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 6 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the 7 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   The structure and method of 9 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 10 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of gravity solar thermal power generation of 11 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball increase device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   The structure and method of 12 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use liquid indium containing alloy in ball increase device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   A structure and method for accelerating liquid indium containing high temperature alloys vertically by providing a 14-fold gravity solar power generation turbine in multiple stages with a turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 18 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 19 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade section (4X) 20 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 21 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 22 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 23 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method of accelerating the critical substance vertically downward by providing a multistage 24 × gravity solar power generation turbine with a turbine blade cross section (4 ×) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 25 times of gravity solar thermal power generation turbines of 25 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing a five-fold gravity solar thermal power generation turbine with a 5 × turbine blade cross section (4 ×) 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 6 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the 7 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + heat buildup to increase the temperature 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 9 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of 10 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of gravity solar thermal power generation of 11 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball increase device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   The structure and method of 12 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use liquid indium containing alloy in ball increase device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 15 times gravity solar power generation turbine with a 15x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 18 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade section (4X) 20 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 21 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 22 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 23 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 24 times gravity solar power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically by providing 25 times of gravity solar thermal power generation turbines of 25 times the turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 6 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the 7 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 9 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 10 times the turbine blade cross-section (4X) in multiple stages + Fully charge house buildup + Heat retention increasing ball lifter 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   Structure and method of gravity solar thermal power generation of 11 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball increase device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   The structure and method of 12 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use liquid indium containing alloy in ball increase device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 15 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a multistage gravity solar power generation turbine with 16 times of turbine blade cross section (4X) + heat and cold utilization utilizing heat + heat lens to heat sunlight with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 18 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 21 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 22 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 23 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 24 times gravity solar power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) 25 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with double turbine blade cross-section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the 7 times gravity solar thermal power generation turbine in multiple stages with turbine blade cross section (4X) + heat buildup to increase the temperature 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 9 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 10 times the turbine blade cross-section (4X) in multiple stages + Fully charge house buildup + Heat retention increasing ball lifter 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   The structure and method of 12 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use liquid indium containing alloy in ball increase device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of 15 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of gravity solar thermal power generation of 16 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy with ball increaser (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method of accelerating the liquid indium containing high temperature alloy vertically by providing 17 times of gravity solar power generation turbine with 17 times of turbine blade cross section (4X) + heat and cold heat utilization + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + use long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertical Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased acceleration power generation downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines with 18 times of turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar light with long lens Gather linearly to absorber + keep warm liquid lifter (2F) and use liquid indium containing uplifting storage + long lens width increase heating compress air to approach 1200 degrees + heavier substance vertical Various energy storage cycle combination engines that accelerate downward and drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a multistage solar power generation turbine with 19 times of turbine blade cross section (4X) + heat + cold heat energy + heat lens with long lens + heat lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy Vertically accelerating the rolling contact as a rolling contact to drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 20 times gravity solar power generation turbine with a 20x turbine blade cross section (4X) + heat and cold heat utilization + heat lens with a long lens Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lifter (2F) + compress the air of width increase heating air of long lens close to 1200 degrees + liquid containing high temperature alloy Various energy storage cycle combined engines that drive the heat retaining mass turbine and heat retaining heat energy turbine with increased power output as accelerated rolling contact with indium downward vertically and rotate the sun heater on the water surface.   A structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing a 21-fold gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + solar energy Gather linearly to absorber + keep warm and increase the use of liquid indium containing alloy in warmth increase device (2F) + use long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy The compressed air acceleration heats the air and drives the heat retention mass turbine and heat retention heat energy turbine to increase power generation capacity + Various energy storage cycle combined engines that rotate the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 22 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compressed air of width increase heating of long lens Compresses the temperature close to 1200 degrees + Accelerates specific power vertically downward Heat retention mass turbine with heat production increase and heat retention heat energy turbine drive + Tilting rotation of solar heater on water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 23 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth heat capacity turbine to increase power generation capacity + Tilt the solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 24 times gravity solar power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) uplift and use liquid indium containing alloy + Compresses the extended lens heating air to a long lens and move it towards 1200 degrees + accelerates the liquid indium containing the alloy vertically downwards rolling contact with the heat generation mass turbine and heat generation heat turbine of power generation increase driving + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Equipment method to make the turbine blade cross section (4X) 25 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) to rise and use liquid indium containing alloy + Compresses the extended lens heating air for a long lens and drives it close to 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling contact as a rolling contact to drive a heat retaining mass turbine and heat retaining heat turbine of a power generation increase + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Equipment method to make the turbine blade cross section (4X) twice the gravity solar thermal power generation generating turbine blade all the way + factory electrification to make up + heat retention increase use ball rising device (2F) rise up and use liquid indium containing alloy + Compresses the width-increase heating air of the long lens + Brings the liquid indium containing the alloy to air near the 1200 ° C by heating the air by compressed air acceleration to drive the heat retention mass turbine and heat retention heat turbine of the power generation increase + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines with triple turbine blade cross-section (4X) in multiple stages + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy in ascending position + long lens width increase heat compressed air to approach 1200 degrees + ratio critical substance vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing a multistage gravity solar thermal power generation turbine with four times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Gather linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise + wide lens width increase Heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing a five-fold gravity solar thermal power generation turbine with 5 times the turbine blade cross section (4X) + heat and cold heat utilization + long lens to convert sunlight into heat absorber Use linear accumulation + heat retention increase ball lifter (2F) to use liquid indium containing ascend to save + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 6 times the turbine blade cross section (4X) in multiple stages + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing ascent as storage + long lens width increase heating compressed air to approach 1200 degrees + high temperature liquid containing liquid alloy vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by providing 7 times gravity solar thermal power generation turbines in 7 stages of turbine blade cross section (4X) + heat and cold utilization utilizing heat + long lens to convert sunlight into heat absorbing material Use linear accumulation + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing alloy containing compressed air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 8 times the turbine blade cross section (4X) in multiple stages + make the whole surface electrification house prime + heat retention increasing ball raising device ( 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to get close to 1200 degrees + specific critical material accelerated downward to increase power generation thermal mass turbine and thermal energy turbine Drive + Various energy storage cycle combined engine to rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 9 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in rise storage + long lens width increase heating air compression to make it approach 1200 degrees + heavier material to accelerate vertically downward to increase power generation warmth mass turbine and heat retention A variety of energy storage cycle combined engines that drive a calorific turbine + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 10 times the turbine blade cross-section (4X) in multiple stages + Fully charge house buildup + Heat retention increasing ball lifter 2F) Using liquid indium containing alloy in elevated storage + lengthening lens width increasing heating air compressed to approach 1200 degrees + liquid indium containing alloy vertically downward accelerating liquid heat retention mass as output increase Various energy storage cycle combined engines that drive the turbine and heat retention heat turbine + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 11 times the turbine blade cross section (4X) in multiple stages + heat buildup ball rise device 2F) use liquid indium containing alloy in ascending storage + length increase lens width compression heating air to approach 1200 degrees + liquid indium containing high temperature alloy vertically downward as accelerated rolling contact heat retention increase A variety of energy storage cycle combined engines that drive mass turbines and heat retaining heat turbines + rotate the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by providing the turbine blade cross section (4X) with 12 times gravity solar power generation turbine in multiple stages + make the whole surface electrified house prime + heat retention increasing ball raising device ( 2F) Using liquid indium containing alloy in elevated storage + Lengthening lens width increasing heating air compression to make it approach 1200 degrees + Liquid indium containing alloy heating air by compressed air acceleration to increase power generation capacity Various energy storage cycle combined engines that drive a warmth mass turbine and a warmth heat energy turbine + tilt and rotate a solar heater on the water surface.   The structure and method of 13 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compresses the air with increased width heating to bring it closer to 1200 ° + Accelerates the specific substance vertically downwards Heat retention mass turbine with increased power generation and heat retention heat source turbine drive + Various energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method of 14 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air with increased width heating to make it approach 1200 degrees + accelerate heavier materials vertically downward to drive the warmth mass turbine and warmth thermal energy turbine with increased power output + various types of tilting rotation of the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method of 15 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention increase use ball rising device (2F) liquid indium containing alloy is stored and used + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Structure and method of gravity solar thermal power generation of 16 times the turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy with ball increaser (2F) + long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward vertically as rolling contact with power generation heat retention mass turbine and heat retention heat turbine drive + solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method of 17-fold gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles heap up + heat retention and increase use of liquid indium containing alloy in ball rising device (2F) + long lens Compress the air of increased width heating to bring it closer to 1200 ° + Liquid indium containing alloy Compress air by heating air by heating air to drive the heat retention mass turbine and heat retention heat turbine of power generation increase + Solar heater on water surface The various energy storage cycles combined engine to rotate at tilt.   Configuration and method for vertically accelerating liquid indium containing 18 times gravity solar power generation alloy with turbine blade cross section (4X) + air tube air suction heat recovery heat recovery by superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heat compression air to approach 1200 degrees + ratio critical material vertically downward acceleration Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 19-fold gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention increase ball lifter (2F) to lift liquid indium containing alloy + use long lens width increase heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 20 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 21-fold gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heating compresses air to approach 1200 degrees + high temperature alloy containing liquid indium vertically Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact downward + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 22 × gravity solar power generation alloy with a turbine blade cross section (4 ×) + air tube air with suction heat recovery and superheated steam (50) and compressed air (28 a) Each uses a turbine drive + heat retention increase ball lifter (2F) to raise and store liquid indium containing alloy + long lens width increase heat compression air to approach 1200 degrees + liquid indium containing alloy compression air Various energy storage cycle combined engines that heat the air by acceleration and drive the heat retention mass turbine and heat retention heat energy turbine with electric power generation increase + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 23 × gravity solar power generation alloy with a turbine blade cross section (4 ×) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28 a) Drive the turbine + heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + long lens width increase heat compression air to approach 1200 degrees + ratio critical material vertically downward acceleration Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + rotate the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 24 × gravity solar power generation alloy with a turbine blade cross section (4 ×) + air tube air with suction heat recovery to superheat steam (50) and compressed air (28 a) Drive the turbine + heat retention increase ball lifter (2F) to lift liquid indium containing alloy + use long lens width increase heat compressed air to approach 1200 degrees + accelerate heavier material vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 25 times gravity solar power generation alloy with turbine blade cross section (4X) + air tube air suction heat recovery heat recovery and superheated steam (50) and compressed air (28a) Drive the turbine + heat retention and increase ball lift (2F) to use liquid indium containing the alloy to rise and hold + long lens width increase heating compressed air to approach 1200 degrees + liquid indium containing alloy vertically downward Various energy storage cycle combined engines that drive the heat retention mass turbine and heat retention heat energy turbine with increased power generation as acceleration rolling contact + tilt rotation of the solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation A double rotor type all blade gravitational solar heat turbine equipped with two stages in one stage + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration to increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in three stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, which has two types of moving blade gravity solar heat turbines in four stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 5 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which is equipped with six types of two types of vertical solar blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 7 types of vertical type all moving blade gravity solar thermal turbines aiming at 7   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in eight stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 9 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 10 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 11 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 12 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two types of moving blade gravity solar thermal turbines in 13 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water + provided with 14 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which has two types of moving blade gravity solar heat turbines in 15 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which has two types of moving blade gravity solar heat turbines in 16 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that has two types of moving blade gravity solar heat turbines in 17 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 18 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of 19-stage vertical solar blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 20 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 21 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 22 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 23 stages of two types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 24 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 25 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 26 stages of two types of vertical solar blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 27 stages of two types of vertical solar blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 28 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 29 stages of 2 types of vertical type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 30 stages of two types of vertical type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 31 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 32 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 33 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface provided in 34 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 35 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface provided in 36 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 37 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses to approach 1200 ° C + Accelerates the specific substance vertically downward to increase the amount of power generation Aiming at increasing the amount of power generation with all types of rotor blades Gravity solar thermal turbines 2 types in 38 stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + accelerates heavier materials vertically downward to increase power generation capacity Axle-type all-blade gravity solar heat turbine equipped with two types of 39 stages + Solar heater inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compress the fluid and move it closer to 1200 ° + Increase the output by accelerating the liquid indium containing the alloy vertically downwards as rolling contact with 2 types of rotor type all blade gravity solar thermal turbines + solar heater with water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses the temperature close to 1200 degrees + accelerates the generation capacity by accelerating liquid-inclination containing high temperature alloy vertically downward as rolling contact with 2 types of rotor type all blade gravity solar thermal turbines with 41 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy Heat air by compressed air acceleration of liquid indium to aim at increase of power generation Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerated acceleration of the power generation aimed at increasing the amount of power generation Two vertical rotor blade gravity solar heat turbine provided with two stages in 43 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical blade all gravity wing solar thermal turbines are provided in 44 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 45 stages of vertical solar full power blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines in 46 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of 2 types of vertical bladed gravity solar thermal turbines organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of the width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier material vertically downward to increase power generation by providing 2 types of rotor blade gravity solar thermal turbines in 49 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 50 stages of 2 types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the air of heating to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling as rolling contact to aim at increasing power output as two types of rotor blade gravity solar thermal turbines 51 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 52 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 53 types of vertical type all moving blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 54 stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 55-stage vertical rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbine with 56 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of 57 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines are provided in 58 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 59 types of all moving blade gravity solar thermal turbines in 59 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 60 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 61 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 62 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downward to increase the power generation rate Targeting all types of rotor blade gravity solar thermal turbines with two types of 63 stages of solar power + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing two types of vertical wing all type gravity solar thermal turbines 64 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as a rolling contact to increase power generation by installing two types of rotor blade gravity solar thermal turbines in 65 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with 2 types of rotor blade gravity solar thermal turbines with 66 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Vertical-type all moving blades Gravity-type solar heat turbine Two types of 68 stages of + solar power heater tilt rotation on the water surface combined with various energy storage cycle engines.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 69 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 vertical stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two vertical blade rotors installed with 71 stages of gravity solar thermal turbines + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increase of power generation. Various types of energy storage cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbine 72 types organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of rotor blade gravity solar thermal turbines of 73 stages + solar light Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate a heavier material vertically downward to increase power generation by installing two types of rotor type full blade gravity solar heat turbines in 74 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 75 stages of two blades all types of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air of heating to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate vertically downward as rolling contact to aim at increasing power output as two types of rotor blade gravity solar thermal turbine 2 types 76 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in the 77th stage.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 78 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 79 types of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blade gravity solar heat turbines to accelerate and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 80 stages of two types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbine provided with 81 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 82 stages of vertical rotor blade gravity solar thermal turbines 2 types aiming at increasing power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 83 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 84 types of all moving blade gravity solar thermal turbines in 84 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 85 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 86 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 87 types of 2 types of vertical wing all type gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downwards Increase the power generation aiming at increasing the amount of power generation Set the 88 types of rotor type all blade gravity solar thermal turbines + solar heater with 88 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 89 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature close to 1200 ° + liquid indium containing the alloy vertically downward to accelerate the rolling contact to increase power output by using two types of rotor blade gravity solar thermal turbines in 90 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 91 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two types of 93 types of solar power turbines + + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 94 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 95 stages of vertical type all moving blades gravity solar thermal turbine aiming at increasing power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase the power output aiming at increasing power generation Two vertical rotor blade gravity solar thermal turbines equipped with 96 stages + Various energy conservation cycle combined engines that rotate the sun heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing bucket type solar thermal turbines of 97 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate to increase the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar heat turbine aiming at 98 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier material vertically downward to increase power generation by installing 2 types of rotor blade gravity solar thermal turbines in 99 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 100 types of two-bladed full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 101 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the surface of the water + provided in 102 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 103 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 stages of 104 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines of two types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 106 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing all type wing gravity solar thermal turbine with 2 types of vertical rotor blades designed to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 108 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of all moving blade gravity solar thermal turbines in 109 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 110 stages of two types of vertical wing type all blade gravity solar thermal turbines to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 111 types of vertical solar blade gravity solar thermal turbines aiming at vertical motion.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 112 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical material accelerated downward vertically to increase power generation Aiming at all stages of blade-type all blade gravity solar thermal turbine with 113 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing two stages of floating wing all blade gravity solar thermal turbines in 114 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in 115 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to a temperature of 1200 degrees + accelerate the downward rolling contact of liquid indium containing high temperature alloy vertically downwards and aim at increasing the amount of power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 118 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing type all blade gravity solar heat turbine with 2 stages aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 120 stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blades designed to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical blade all type gravity solar thermal turbine installed in one stage + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of two types of vertical solar blade gravity solar thermal turbine + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward to increase the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 4-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 5 types of vertical blade all type gravity solar thermal turbines 5 types + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact aiming at increased power output as two types of rotor blade gravity solar thermal turbines 2 types 6 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface, which is provided in 7 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 8 types of vertical type all blade gravity solar thermal turbines aiming at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 9 types of vertical type all moving blade gravity solar thermal turbine to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 11 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface with 12 stages of vertical rotor blade gravity solar heat turbines equipped with 12 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by providing two types of gravity solar thermal turbines in 13 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 14 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 15 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with a total of 16 types of vertical solar blade gravity solar thermal turbines that aim at vertical rotation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 17 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downwards Increase the power generation aiming at the power generation of two blades of all blade gravity solar thermal turbines + solar heater with 18 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 19 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aim to increase the amount of power generation Two types of rotor blade gravity solar thermal turbines are provided in 20 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 21 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heat air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 23 types of solar power turbines + + Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation Two vertical stages of rotor blade gravity solar heat turbines are provided in 24 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 25 stages of vertical solar full power blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium in the vertical downward direction to increase the power generation capacity Two vertical rotor blade gravity solar thermal turbines equipped with 26 stages + Various energy storage cycle combined engines that rotate the solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating the air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of rotor blade gravity solar thermal turbines are provided in 27 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the specific power of the critical substance vertically downward increase of the power generation Aimed at 28 stages of 2 types of rotor type all blade gravity solar thermal turbine + solar Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 29-stage vertical wing moving blade gravity solar thermal turbines are provided + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 30 types of floating all blade gravity solar heat turbine type 2 + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 31 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water provided in 32 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines 2 types aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of 34 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 35-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 36 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 37 stages of 2 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 38 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 39 stages of 2 types of all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 40 stages of two types of vertical wing all type gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 41 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 42 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting all types of rotor blade gravity solar thermal turbines 2 types 43 stages of solar power turbine + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing two stages of floating wing all blade gravity solar thermal turbines in 44 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1,200 degrees + Liquid indium containing the alloy is accelerated downward in the vertical downward direction for rolling contact. Two 45% stages are provided with two types of rotor blade gravity solar thermal turbines to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to increase power output with 46 types of two bladed full blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air by compressed air Acceleration of total power blade gravity solar thermal turbine 2 types to 47 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two types of vertical blade all-rotor gravity solar heat turbines are provided in 48 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 49 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on water surface   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 50 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical bladed full blade gravity solar thermal turbines in 51 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration to increase power generation by combining 52 types of vertical rotor blade gravity solar thermal turbine + 52 types of various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavier material vertically downward to increase power generation by installing 2 types of rotor type full blade gravity solar thermal turbines in 54 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 55 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at increased power output as 56 types of floating solar blade gravity solar heat turbines 2 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, which is provided in 57 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 58 stages of two types of vertical bladed full blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 59 types of vertical rotor blade gravity solar heat turbines designed to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 60 stages of vertical rotor full blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 61 stages + Various energy storage cycle combined engines that tilt and rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 62 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 63 stages + sun light heaters are inclined on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water, which has two types of full blade gravity solar heat turbines in 64 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 65 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 66 stages of two types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 67 types of vertical solar full-wing gravity solar thermal turbines aiming to increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downward to increase the power generation rate Target the two types of vertical wing all blade gravity solar thermal turbine with 68 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by providing two types of wing-type all blade gravity solar thermal turbines in 69 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 71 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 73 kinds of solar power turbines + + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerates downward vertically to increase power generation. Two types of vertical blade all type gravity solar heat turbines are provided in 74 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that rotate the sun heater on the water surface by providing two stages of vertical rotor blade gravity solar thermal turbines in 75 stages aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines provided in 76 stages + Various energy conservation cycle combined engines that rotate the sun heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Two different types of energy saving cycle combining the solar rotor with tilt rotation on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward of the critical material Aiming at the increase of power generation aiming at two stages of the wing type all moving blade gravity solar thermal turbine + 78 Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens and make it approach 1200 degrees + Accelerate heavy material vertically downward to increase power generation by installing two kinds of vertical wing all type gravity solar thermal turbine in 79 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 80 types of two blades all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 81 types 81 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 82 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 83 types of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 84 stages of floating solar powered gravity turbines with 2 types of vertical blade type all-in-one gravity solar heat turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 85 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar heat turbine provided with 86 stages + various energy storage cycle combined engine to tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 87 vertical stages of all types of rotor blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines are provided in 88 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 89 types of all moving blade gravity solar thermal turbines in 89 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 90 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 91 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 92 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + ratio critical substance vertically downward accelerating power generation aiming at all types of rotor blade gravity solar thermal turbines 2 types 93 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-shaped full blade gravity solar thermal turbines in 94 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1,200 degrees + liquid indium containing the alloy vertically downward to accelerate the rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 95 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 96 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 98 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical blade all gravity wing solar thermal turbines are provided in 99 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 100% vertical rotor blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical wing all type gravity solar thermal turbine installed in 101 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical rotor blade gravity solar thermal turbines of 102 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation ratio increase of the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar thermal turbine aimed at 103 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier material vertically downward to increase power generation by providing 2 types of rotor type full blade gravity solar thermal turbines in 104 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power generation as two types of 105-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 106 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in the 107th stage.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 108 stages of 2 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 109 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 110 vertical stages of two-bladed full bladed gravity solar thermal turbine aiming at increased power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical rotor blade gravity solar thermal turbines equipped with 111 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface with 112 stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration and increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 113 stages + sun light heaters are tilted on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, with all the moving blade gravity solar thermal turbines provided in two stages of 114 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 115 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 116 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 117 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Aiming for the increase of the power generation with 2 types of paddle-type all blade gravity solar thermal turbines 118 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 119 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with two types of rotor blade gravity solar thermal turbines in one stage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by compressed air Acceleration of rotor blade All-rotor gravity solar heat turbine 2 types in 2 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with three types of vertical type all moving blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with four stages of vertical rotor blade gravity solar heat turbines with two types to accelerate power generation and increase power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 5 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming to increase power generation as acceleration rolling contact vertically downward.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in six stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 7 types of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 8 types of vertical type all blade gravity solar thermal turbines aiming at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 9 types of vertical type all moving blade gravity solar thermal turbine to accelerate power generation and increase power generation capacity.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation as acceleration rolling contact vertically downward.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 11 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface with 12 stages of vertical rotor blade gravity solar heat turbines equipped with 12 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 13 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water + provided with 14 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which has two types of vertical-type all-blade gravity solar thermal turbines in 15 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which has two types of floating wing type all blade gravity solar thermal turbines aimed at +16 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 17 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 18 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 19 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 20 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 21 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 22 types of solar thermal turbines in 22 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that has two types of moving blade gravity solar thermal turbines in 23 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 24 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 25 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 26 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which has two types of moving blade gravity solar heat turbines in 27 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 28 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 29 stages of 2 types of vertical type all blades gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 30 stages of two types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 31 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water with 32 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 33 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 34 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 35 stages of two types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 36 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 37 stages of two types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 38 types of 2 types of vertical type all moving blades gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 39 types of vertical type all moving blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 40 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 41 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 42 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water, provided in 43 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, which is provided in 44 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 45 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 46 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided at the 47th stage.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 ° C + Accelerates the specific substance vertically downward to increase the amount of generated power Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + accelerates heavier materials vertically downward to increase power generation capacity Vertical blade full blade gravity solar heat turbine equipped with 2 types of 49 types + solar heater inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compress the fluid and move it closer to 1200 ° + Increase the output by accelerating the liquid indium containing the alloy vertically downwards as rolling contact with 2 types of paddle-type full blade gravity solar thermal turbine with 50 stages of + solar heater on the water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses the temperature close to 1200 degrees + accelerates the generation capacity by accelerating liquid-inclination containing high temperature alloy downward vertically as rolling contact with 2 types of paddle type all blade gravity solar thermal turbines in 51 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy Heats air by compressed air acceleration of liquid indium to aim at increase of power output Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at 52 types of vertical bladed all moving blade gravity solar heat turbines + + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation A double-type all-blade gravity solar heat turbine equipped with two stages of 54 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 55 vertical stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Including various types of energy saving cycle combined engines that tilts and rotates a solar heater on the water surface equipped with 56 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium containing vertically downward. .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration to increase power generation by combining two types of vertical rotor blade gravity solar thermal turbines in 57 stages + Various energy storage cycle combinations that rotate the solar heater on the water surface by tilting rotation organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of rotor blade gravity solar thermal turbines of 58 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate a heavier material vertically downward to increase power generation by providing two types of rotor blade gravity solar thermal turbines in 59 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 60 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 61 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water provided at 62 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 63 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 64 types of vertical solar blade turbines with two types of vertical blade all types of gravity solar thermal turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines with two stages aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines provided with two stages 66 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 67 types of vertical rotor blade gravity solar heat turbines that heats the air by compressed air acceleration and aims to increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 68 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 69 types of all moving blade gravity solar thermal turbines in 69 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 71 stages of two types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 72 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 ° C + Accelerate the specific power vertically downward to increase the power generation target Two 73-stage vertical wing rotor blade gravity solar thermal turbines + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing two stages of wing-type all blade gravity solar thermal turbines in 74 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aim to increase power generation by providing two types of rotor blade gravity solar thermal turbines in 75 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 76 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the amount of accelerated power generation aimed at increasing the amount of power generation Two types of vertical blade all type wing gravity solar thermal turbine provided in 78 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation capacity Two types of vertical blade all type gravity solar heat turbines are provided in 79 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface with 80 stages of vertical rotor full blade gravity solar thermal turbine aiming at increasing power generation by accelerating liquid-indium vertically downward and rolling contact.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical bladed full blade gravity solar thermal turbines provided in 81 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim to increase power output organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward to increase the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy materials vertically downward to increase power generation by installing 2 types of floating wing all blade gravity solar thermal turbine in 84 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 85 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 86 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 87 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 88 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 89 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation by accelerating to +.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines in which two types of vertical bladed full blade gravity solar heat turbines are installed in 90 stages to accelerate power rolling as vertical rolling contact and acceleration rolling contact + + a solar heater on a water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines equipped with two stages of 91 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by providing 92 stages of vertical rotor blade gravity solar heat turbines that heats air by compressed air acceleration to increase power generation capacity.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines provided in 93 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water, with 94 types of all moving blade gravity solar thermal turbines provided in 94 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 95 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 96 stages of 2 types of vertical wing type all blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity Two types of vertical wing type all blade gravity solar thermal turbine aimed at increase + 97 various energy preservation cycle combined engine which tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting all types of rotor blade gravity solar thermal turbines 2 types of 98 types of solar power turbine + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 99 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aimed to increase power generation with two types of rotor blade gravity solar thermal turbines 100 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + liquid indium containing high temperature alloy accelerate vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 101 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerated acceleration of the power generation aimed at increasing the amount of power generation All types of rotor blade gravity solar heat turbine 2 types are provided in 103 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 stages of 104 types of vertical type all blade gravity solar heat turbine aiming at power generation increase by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 105-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed at increasing power generation as accelerated rolling contact vertically downward with liquid indium containing two types of vertical bladed full blade gravity solar thermal turbines in 106 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing all type gravity solar thermal turbines of 107 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of vertical blade with all types of gravity solar thermal turbine Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 109-stage all-wing full blade gravity solar thermal turbines are provided + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power generation as two-stage 110-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated downward vertically as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 111 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 112 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 113 stages of 2 types of vertical-type all moving-blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 114 types of vertical solar blade gravity turbines designed to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 115-stage vertical rotor blade gravity solar heat turbine aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 116 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 117 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water + which has two types of gravity solar thermal turbines in 118 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two types of all moving blade gravity solar thermal turbines in 119 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 120 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical solar blade with a total blade gravity solar heat turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical type all moving blade gravity solar thermal turbine aiming at increase + two stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aimed to increase the amount of generated power Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-shaped full blade gravity solar thermal turbines in 4 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in five stages to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by setting two types of rotor blade gravity solar thermal turbines in six stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of eight types of solar power turbine + + Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in nine stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical blade all type gravity solar thermal turbine installed in 11 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines of 12 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific material acceleration vertically downward to increase the amount of generated power Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width-increased heating of long lensed to approach 1200 degrees + Accelerated heavier material vertically downward to aim at increased power generation We installed two types of rotor blade gravity solar thermal turbines in 14 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 15 stages of 2 types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 16 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, which is provided in 17 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 18 types of vertical type all moving blades gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines of two types to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 20 stages of vertical rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with 2 types of vertical bladed all-rotor gravity solar heat turbines equipped with 21 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines with 22 stages of vertical rotor blade gravity solar heat turbines equipped with 22 stages of solar power turbines to heat the air by compressed air acceleration and increase power generation capacity + Tilting and rotating a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 23 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 24 stages of all moving blade gravity solar thermal turbines provided in 24 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 25 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 26 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 27 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downwards Increase the power generation aiming at 28 stages of 2 types of rotor type all blade gravity solar thermal turbine + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 29 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward as rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 30 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 31 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 33 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar generator on the water surface by providing 2 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 35 stages of vertical rotor full blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium in the vertical downward direction to increase power generation by using two types of vertical wing moving blade gravity solar thermal turbine with 36 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of 37% type of vertical solar blade gravity solar thermal turbine organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward of the critical material Aiming at the increase of the power generation capacity Two types of rotor type all blade gravity solar heat turbines are provided in 38 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 39-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 40 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 41 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, provided in 42 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 43 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 44 stages of 2 types of vertical blade all types of gravity solar thermal turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 45 stages of two types of vertical bladed full blade gravity solar thermal turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 46 stages + various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 47 stages of 2 types of vertical bladed full blade gravity solar heat turbines, which aim to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 48 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine which tilts and rotates a solar heater on the water surface equipped with 49 types of all moving blade gravity solar thermal turbines in 49 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 50 stages of two types of vertical wing all types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 52 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 52 stages of two types of vertical wing all type gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical material accelerated downward vertically to increase power generation Aiming at 52 stages of two types of all blade gravity solar thermal turbines + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by providing two stages of 55-stage vertical solar blade gravity solar thermal turbine + solar light Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with 56 types of two blade type all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 58 types of solar turbines + + Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades vertically downward to increase the amount of power generation Two vertical rotor blade gravity solar heat turbines with two stages of 59 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 60 stages of vertical rotor full blade gravity solar thermal turbine aiming at increasing power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two vertical rotor blade gravity solar thermal turbines provided in 61 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy storage cycle combination that tilts and rotates the solar heater on the water surface equipped with 2 stages of 2 types of vertical solar blade gravity solar thermal turbines organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power generation 2 types of rotor type whole blade gravity solar heat turbines provided with 63 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavier material vertically downward to aim at increase of power generation We installed two types of rotor type full blade gravity solar thermal turbine in 64 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 65 stages of two blades all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 66 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, provided at the 67th stage.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 68 stages of two types of vertical bladed full blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 types of vertical wing type all blade gravity solar heat turbine aiming at increased power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical rotor blade gravity solar thermal turbines installed in 71 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface with 72 stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration to increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by installing two types of gravity solar thermal turbines in 73 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 74 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 75 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 76 stages of two types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 77 types of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aimed to increase the power generation with two types of paddle-type all blade gravity solar thermal turbines 78 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of wing-type all blade gravity solar thermal turbines in 79 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Liquid indium containing the alloy is accelerated downward in the vertical direction as rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in 80 stages to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 81 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air to accelerate power generation Two types of rotor blade gravity solar thermal turbines with 82 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 83 types of solar power turbine + + Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy conservation cycle combined engines that tilt the sun heater on the water surface by providing 2 stages of vertical rotor blade gravity solar heat turbines with 2 stages aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 85 stages of vertical rotor blade gravity solar thermal turbines designed to increase power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium downwards vertically as an accelerated rolling contact with two types of vertical bladed full blade gravity solar thermal turbines provided in 86 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increase of power output organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power production Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate a heavier material vertically downward to increase power generation Two 89-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 90 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 2 types 91 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, provided in 92 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 93 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 94 types of floating solar powered turbines with 2 types of vertical blade all type gravity solar thermal turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 95-stage vertical rotor blade gravity solar heat turbine aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines equipped with 96 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines are provided in 98 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of all moving blade gravity solar thermal turbines in 99 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 100 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 101 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 102 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting 2 types of vertical wing all blade gravity solar thermal turbines + solar heater with 103 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 104 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward as rolling contact to increase power output by installing 2 types of rotor blade gravity solar thermal turbines in 105 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with two types of rotor blade gravity solar thermal turbines with 106 stages in two stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air to accelerate power generation Two types of rotor blade gravity solar thermal turbines with 107 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Vertical-type all moving blades Gravity-type solar heat turbine Two kinds of 108 types of + + Various kinds of energy storage cycle combined engine that tilts and rotates a solar heater on water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity. Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical wing all gravity wing solar thermal turbines in 109 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 110 stages of vertical type all moving blades gravity solar thermal turbine aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical blade all type gravity solar thermal turbine installed in 111 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increase of the power generation capacity. Various energy conservation cycle combination that tilts and rotates the solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines of 112 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of air of width increase heating of long lens to make it approach 1200 degrees + Acceleration of the power generation ratio increase of the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar thermal turbine aimed at 113 stages + solar light Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy material vertically downward to increase power generation by installing 2 types of wing-shaped full blade gravity solar thermal turbines in 114 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 2 types of 115-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines of two types 116 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface, which is provided in 117 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 118 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 119 stages of 2 types of vertical solar blade gravity solar thermal turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 120 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation A double rotor type all blade gravitational solar heat turbine equipped with two stages in one stage + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration to increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water + two types of gravity solar thermal turbines are provided in three stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with four types of all moving blade gravity solar thermal turbines in four stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 5 stages of 2 types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with six types of vertical solar blade with two types of vertical blade all type gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 7 types of vertical type all moving blade gravity solar thermal turbine aiming at increase + stage.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aimed at all stages of the blade type all blade gravity solar thermal turbine 2 types + solar heater with 8 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-shaped all blade gravity solar thermal turbines in 9 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as a rolling contact to aim at increasing the amount of power generation Two types of rotor blade gravity solar thermal turbines are provided in 10 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 11 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress the heating air to make it approach 1200 degrees + Accelerate the specific power vertically downward to increase the power generation rate Targeting all types of rotor blade gravity solar thermal turbines 2 types in 13 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation Two 14-stage vertical solar blade gravity solar thermal turbines are provided in 14 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downward for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with 2 types of rotor blade gravity solar thermal turbines in 16 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air to accelerate power generation 2 types of rotor blade gravity solar thermal turbines 2 types to 17 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Heat absorbing material collected in a straight line + Heat retention increase ball rising device (2F) to use liquid indium containing alloy to rise and save + Long lens width increase heating Compress air to approach 1200 degrees + ratio critical substance A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 18 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation vertically downward.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + heavier substance A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of vertical rotor blade gravity solar heat turbines with two types of vertical wing all gravity moving solar thermal turbines aiming to increase power generation by accelerating vertically downward.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air to be compressed to approach 1200 degrees + liquid containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 20 stages of vertical rotor blade gravity solar thermal turbines aiming to increase power generation by accelerating indium downward vertically and rolling contact.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + include high temperature alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 21 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air to be compressed to approach 1200 degrees + liquid containing alloy Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 22 stages of vertical rotor blade gravity solar thermal turbines 2 types aiming to increase power generation by heating air by compressed air acceleration of indium indium .   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Heat absorbing material collected in a straight line + Heat retention increase ball rising device (2F) to use liquid indium containing alloy to rise and save + Long lens width increase heating Compress air to approach 1200 degrees + ratio critical substance A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, with 23 stages of vertical rotor blade gravity solar heat turbines designed to increase the amount of accelerated power generation vertically downward.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + heavier substance A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 24 stages of vertical rotor blade gravity solar heat turbines with two types of vertical wing all gravity moving blades aiming at increasing power generation by accelerating vertically downward.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air to be compressed to approach 1200 degrees + liquid containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 25 stages of vertical rotor blade gravity solar thermal turbines 2 types aiming to increase power generation as accelerated rolling contact with indium vertically downward.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + include high temperature alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 26 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air to be compressed to approach 1200 degrees + liquid containing alloy In order to increase power generation by heating air by compressed air acceleration of indium to increase power generation capacity Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines of 27 types .   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim 28 types of solar thermal turbines + + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 29 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 30 stages of two types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 31 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 32 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 33 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 34 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which has two types of solar thermal turbines in 35 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which has two types of solar thermal turbines in 36 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 37 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 38 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output 39 types of moving blade gravity solar thermal turbines are provided in 39 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that has two types of moving blade gravity solar thermal turbines in 40 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 41 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 42 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 43 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 44 stages of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 45 stages of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 46 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 47 stages of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 48 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 49 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 50 stages of two types of vertical wing all types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water with 51 stages of 2 types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 52 stages of two types of paddle-type all moving-blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 53 types of vertical type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 54 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 55 types of vertical solar blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 56 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 57 types of vertical type all moving blades gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, which is provided on the 58th stage.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in the 59th stage.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water, provided in 60 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, which is provided in 61 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water provided at 62 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1,200 deg. + Accelerates the specific substance vertically downward to increase the amount of power generation Aiming at increasing the amount of power generation Two vertical rotor blade gravity solar heat turbines are provided in 63 stages + Various types of tilting and rotating a solar heater Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + accelerates heavier materials vertically downward to increase power generation by installing two types of vertical bladed full blade gravity solar thermal turbines in 64 stages + Tilting a solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy is accelerated vertically downward and rolling contact is made to aim at increased power generation with two types of rotor type all blade gravity solar thermal turbines + solar heater with water heater surface A variety of energy storage cycle coalescing engines that tilt and rotate on.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Accelerates the generation capacity by accelerating liquid-inclination containing high temperature alloy downward vertically as rolling contact with 2 types of rotor type all blade gravity solar thermal turbine with 66 stages of + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy Compresses air by compressed air acceleration of liquid indium to increase power generation aiming at increasing power generation Two types of rotor blade gravity solar thermal turbines are provided in 67 stages + solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Vertical-type all moving blades Gravity-type solar heat turbine Two types of 68 stages of + solar power heater tilt rotation on the water surface combined with various energy storage cycle engines.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 69 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 vertical stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two vertical blade rotors installed with 71 stages of gravity solar thermal turbines + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increase of power generation. Various types of energy storage cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbine 72 types organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all + power increasing ball (2E) to be small diameter + long lens width increasing heating air compression Approximate 1200 degrees + specific power vertically accelerated by increasing the amount of power generation of all rotor blade gravity solar heat turbine 2 types in 73 stages + various energy conservation cycle combination to rotate the sun heater on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all + power increasing ball (2E) to be small diameter + long lens width increasing heating air compression Approximate 1200 ° C + Accelerate heavier substances vertically downward to increase power generation Capacity of all rotor blades Gravity solar heat turbine 2 types provided in 74 stages + Various energy to tilt and rotate a solar heater on the water surface Preservation cycle union agency.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all + power increasing ball (2E) to be small diameter + long lens width increasing heating air compression Approximate 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with liquid indium to increase power output aiming at increasing power generation with two types of rotor blade gravity solar heat turbines of 75 stages + Tilting and rotating sun heater on water surface Let various energy conservation cycle united engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all + power increasing ball (2E) to be small diameter + long lens width increasing heating air compression Approximate 1200 degrees + liquid indium containing high temperature alloy accelerated downward in vertical downward rolling contact to increase power output aiming at increasing power generation with two types of rotor blade gravity solar heat turbines of 76 stages + solar heater inclined on water surface Various energy storage cycle coalescing engine to rotate.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all + power increasing ball (2E) to be small diameter + long lens width increasing heating air compression Approximate 1200 ° C + Liquid indium containing alloy Heat air by compressed air acceleration of liquid indium to increase power generation by installing 2 types of vertical blade all gravity solar thermal turbines in 77 stages + Solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method to accelerate the critical substance vertically by arranging gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + Acceleration turbine drive with small diameter of power increase ball (2E) + Long lens Compress the air to increase the width of the heating air to approach 1200 ° C + Accelerate the specific power vertically downward to increase the power generation of the power generation system. Two types of rotor blade all types of gravity solar thermal turbines with 78 stages + solar heater with water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method to accelerate the critical substance vertically by arranging gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + Acceleration turbine drive with small diameter of power increase ball (2E) + Long lens Compress the air of width increase heating and make it approach 1200 degrees + accelerate the heavier substances vertically downward to aim the power generation increase by installing two types of vertical blade all type gravity solar thermal turbine 79 stages + solar heating Energy storage cycle combined engine that tilts and rotates the unit on the water surface.   Structure and method to accelerate the critical substance vertically by arranging gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + Acceleration turbine drive with small diameter of power increase ball (2E) + Long lens Compress the air of width increase heating and make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward vertically downward rolling contact to aim the increase of electric energy output by providing 2 types of 80 types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically by arranging gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + Acceleration turbine drive with small diameter of power increase ball (2E) + Long lens Compress the air of width increase heating and make it approach 1200 degrees + liquid indium including high temperature alloy accelerate downward vertically downward rolling contact, and aim at the power generation amount increase by providing two kinds of rotor blade gravity solar thermal turbines 81 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the critical substance vertically by arranging gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + Acceleration turbine drive with small diameter of power increase ball (2E) + Long lens Compress the air to increase its width to 1,200 ° C + Liquid indium containing alloy will heat the air by accelerating the air by compressed air acceleration to increase power generation Two 82-stage types of rotor blade gravity solar thermal turbines are provided + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 83 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 84 types of all moving blade gravity solar thermal turbines in 84 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 85 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 86 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 87 types of 2 types of vertical wing all type gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downwards Increase the power generation aiming at increasing the amount of power generation Set the 88 types of rotor type all blade gravity solar thermal turbines + solar heater with 88 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 89 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature close to 1200 ° + liquid indium containing the alloy vertically downward to accelerate the rolling contact to increase power output by using two types of rotor blade gravity solar thermal turbines in 90 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 91 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two types of 93 types of solar power turbines + + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 94 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 95 stages of vertical type all moving blades gravity solar thermal turbine aiming at increasing power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase the power output aiming at increasing power generation Two vertical rotor blade gravity solar thermal turbines equipped with 96 stages + Various energy conservation cycle combined engines that rotate the sun heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing bucket type solar thermal turbines of 97 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate to increase the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar heat turbine aiming at 98 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier material vertically downward to increase power generation by installing 2 types of rotor blade gravity solar thermal turbines in 99 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 100 types of two-bladed full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 101 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the surface of the water + provided in 102 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 103 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 stages of 104 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines of two types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 106 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing all type wing gravity solar thermal turbine with 2 types of vertical rotor blades designed to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 108 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of all moving blade gravity solar thermal turbines in 109 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 110 stages of two types of vertical wing type all blade gravity solar thermal turbines to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 111 types of vertical solar blade gravity solar thermal turbines aiming at vertical motion.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 112 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical material accelerated downward vertically to increase power generation Aiming at all stages of blade-type all blade gravity solar thermal turbine with 113 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing two stages of floating wing all blade gravity solar thermal turbines in 114 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in 115 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to a temperature of 1200 degrees + accelerate the downward rolling contact of liquid indium containing high temperature alloy vertically downwards and aim at increasing the amount of power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 118 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing type all blade gravity solar heat turbine with 2 stages aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 120 stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blades designed to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical blade all type gravity solar thermal turbine installed in one stage + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of two types of vertical solar blade gravity solar thermal turbine + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward to increase the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 4-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 5 types of vertical blade all type gravity solar thermal turbines 5 types + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact aiming at increased power output as two types of rotor blade gravity solar thermal turbines 2 types 6 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface, which is provided in 7 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 8 types of vertical type all blade gravity solar thermal turbines aiming at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 9 types of vertical type all moving blade gravity solar thermal turbine to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 11 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface with 12 stages of vertical rotor blade gravity solar heat turbines equipped with 12 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by providing two types of gravity solar thermal turbines in 13 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 14 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 15 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with a total of 16 types of vertical solar blade gravity solar thermal turbines that aim at vertical rotation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 17 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downwards Increase the power generation aiming at the power generation of two blades of all blade gravity solar thermal turbines + solar heater with 18 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 19 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aim to increase the amount of power generation Two types of rotor blade gravity solar thermal turbines are provided in 20 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 21 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heat air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 23 types of solar power turbines + + Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation Two vertical stages of rotor blade gravity solar heat turbines are provided in 24 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 25 stages of vertical solar full power blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium in the vertical downward direction to increase the power generation capacity Two vertical rotor blade gravity solar thermal turbines equipped with 26 stages + Various energy storage cycle combined engines that rotate the solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating the air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of rotor blade gravity solar thermal turbines are provided in 27 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the specific power of the critical substance vertically downward increase of the power generation Aimed at 28 stages of 2 types of rotor type all blade gravity solar thermal turbine + solar Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 29-stage vertical wing moving blade gravity solar thermal turbines are provided + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 30 types of floating all blade gravity solar heat turbine type 2 + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 31 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water provided in 32 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines 2 types aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of 34 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 35-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 36 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 37 stages of 2 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 38 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 39 stages of 2 types of all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 40 stages of two types of vertical wing all type gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 41 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 42 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting all types of rotor blade gravity solar thermal turbines 2 types 43 stages of solar power turbine + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing two stages of floating wing all blade gravity solar thermal turbines in 44 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1,200 degrees + Liquid indium containing the alloy is accelerated downward in the vertical downward direction for rolling contact. Two 45% stages are provided with two types of rotor blade gravity solar thermal turbines to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to increase power output with 46 types of two bladed full blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air by compressed air Acceleration of total power blade gravity solar thermal turbine 2 types to 47 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two types of vertical blade all-rotor gravity solar heat turbines are provided in 48 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 49 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on water surface   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 50 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical bladed full blade gravity solar thermal turbines in 51 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration to increase power generation by combining 52 types of vertical rotor blade gravity solar thermal turbine + 52 types of various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavier material vertically downward to increase power generation by installing 2 types of rotor type full blade gravity solar thermal turbines in 54 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 55 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at increased power output as 56 types of floating solar blade gravity solar heat turbines 2 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, which is provided in 57 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 58 stages of two types of vertical bladed full blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 59 types of vertical rotor blade gravity solar heat turbines designed to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 60 stages of vertical rotor full blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 61 stages + Various energy storage cycle combined engines that tilt and rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 62 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 63 stages + sun light heaters are inclined on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water, which has two types of full blade gravity solar heat turbines in 64 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 65 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 66 stages of two types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 67 types of vertical solar full-wing gravity solar thermal turbines aiming to increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downward to increase the power generation rate Target the two types of vertical wing all blade gravity solar thermal turbine with 68 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by providing two types of wing-type all blade gravity solar thermal turbines in 69 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 71 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 73 kinds of solar power turbines + + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerates downward vertically to increase power generation. Two types of vertical blade all type gravity solar heat turbines are provided in 74 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that rotate the sun heater on the water surface by providing two stages of vertical rotor blade gravity solar thermal turbines in 75 stages aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines provided in 76 stages + Various energy conservation cycle combined engines that rotate the sun heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Two different types of energy saving cycle combining the solar rotor with tilt rotation on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward of the critical material Aiming at the increase of power generation aiming at two stages of the wing type all moving blade gravity solar thermal turbine + 78 Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens and make it approach 1200 degrees + Accelerate heavy material vertically downward to increase power generation by installing two kinds of vertical wing all type gravity solar thermal turbine in 79 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 80 types of two blades all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 81 types 81 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 82 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 83 types of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 84 stages of floating solar powered gravity turbines with 2 types of vertical blade type all-in-one gravity solar heat turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 85 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar heat turbine provided with 86 stages + various energy storage cycle combined engine to tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 87 vertical stages of all types of rotor blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines are provided in 88 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 89 types of all moving blade gravity solar thermal turbines in 89 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 90 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 91 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 92 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + ratio critical substance vertically downward accelerating power generation aiming at all types of rotor blade gravity solar thermal turbines 2 types 93 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-shaped full blade gravity solar thermal turbines in 94 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1,200 degrees + liquid indium containing the alloy vertically downward to accelerate the rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 95 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 96 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 98 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical blade all gravity wing solar thermal turbines are provided in 99 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 100% vertical rotor blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical wing all type gravity solar thermal turbine installed in 101 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical rotor blade gravity solar thermal turbines of 102 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation ratio increase of the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar thermal turbine aimed at 103 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier material vertically downward to increase power generation by providing 2 types of rotor type full blade gravity solar thermal turbines in 104 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power generation as two types of 105-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 106 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in the 107th stage.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 108 stages of 2 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 109 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 110 vertical stages of two-bladed full bladed gravity solar thermal turbine aiming at increased power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical rotor blade gravity solar thermal turbines equipped with 111 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface with 112 stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration and increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 113 stages + sun light heaters are tilted on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, with all the moving blade gravity solar thermal turbines provided in two stages of 114 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 115 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 116 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 117 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Aiming for the increase of the power generation with 2 types of paddle-type all blade gravity solar thermal turbines 118 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 119 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with two types of rotor blade gravity solar thermal turbines in one stage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by compressed air Acceleration of rotor blade All-rotor gravity solar heat turbine 2 types in 2 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbines are provided in three stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 5 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation aim to increase power generation with two types of vertical bladed full blade gravity solar thermal turbine + six kinds of energy storage cycle combined engine that tilts and rotates a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Two different types of energy saving cycle combining rotating solar rotors on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of rotor type all blade gravity solar thermal turbine provided 8 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy material vertically downward to aim at increase of power output + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 10 types of two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 11 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 12 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 13 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 14 stages of 2 types of vertical type all blade gravity solar heat turbine aiming at increase of power generation to increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of vertical rotor blade gravity solar heat turbines with two stages aiming to increase power generation as accelerated rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 16 stages + various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 17 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 18 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 19 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 20 stages of two types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 21 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 22 stages of 2 types of vertical solar blade gravity solar thermal turbines aiming to increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical substance accelerated downward vertically to increase power generation Aiming to increase power generation of two blades 23 types of rotor blade all gravity solar thermal turbine + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 24 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downward as rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 25 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor type full blade gravity solar thermal turbines in 26 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compressed air of width increase heating of long lens Compresses to approach 1200 degrees + Ratio specific substance accelerates vertically downward power generation aiming at increase power generation capacity Two types of rotor type all blade gravity solar thermal turbines are provided in 28 stages + solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compressed air of width increase heating of long lens Approximate to 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Set up 2 types of rotor type all blade gravity solar thermal turbine 29 stages in the sun + Solar Various energy storage cycle combined engines that tilt and rotate the light heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Increase the width of the long lens by compressing the air and move it towards 1200 degrees + Liquid indium containing the alloy is accelerated downward in the vertical direction as rolling contact. Two types of rotor blade all gravity solar thermal turbines are aimed at 30 stages to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compress the air of long lens width increase heating and make it approach 1200 degrees + liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at power output increase as 31 stages of two blades of a total blade gravity solar thermal turbine + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compress the air by increasing the width of the long lens and make it close to 1200 ° + Liquid indium containing the alloy Compress the air by compressed air Accelerate the air by heating the air to aim at the increase of power generation 32 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compressed air of width increase heating of the long lens Accelerates to 1200 degree + Accelerates the specific power vertically downwards Increase power generation aiming at 2 types of paddle type all blade gravity solar thermal turbine with 33 stages + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compressed air of width increase heating of long lens Approximate 1200 degrees + accelerate heavier material vertically downward to increase power generation by setting 2 types of paddle type all blade gravity solar thermal turbines in 34 stages + solar Various energy storage cycle combined engines that tilt and rotate the light heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Increase the width of the long lens by compressing the air and move it towards 1200 degrees + Liquid indium containing the alloy is accelerated downward in the vertical direction as rolling contact. Two 35-stage vertical bladed solar power turbines are designed to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compresses the air of long lens width increase heating and approaches 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at increasing power output as 36 stages of 2 types of rotor blade gravity solar thermal turbines + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compresses the width-increase heating air of the long lens and moves the liquid indium containing the alloy to close to 1200 ° C. Compress air to accelerate the air by heating the air by compression air acceleration. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 38 types of solar thermal turbines provided in 38 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output 39 types of moving blade gravity solar thermal turbines are provided in 39 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 40 stages of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 41 stages of 2 types of vertical wing type all blade gravity solar thermal turbines to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 42 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 43 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 44 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 45 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 46 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim Two types of solar thermal turbines are provided in 47 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 48 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 49 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that has two types of moving blade gravity solar heat turbines in 50 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 51 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 52 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 53 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 54 stages of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 55 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 56 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 57 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 58 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which is equipped with 59 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 60 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 61 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 62 stages of two types of vertical solar blade gravity solar thermal turbines to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 63 types of 2 types of vertical wing type all blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 64 stages of 2 types of vertical wing type all blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 65 types of vertical solar blade with a total blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 66 stages of two types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 67 types of vertical solar blade with two types of vertical blade all type gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface provided in the 68th stage.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 69 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface provided in 70 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines Various energy storage cycle combined engines that tilt and rotate on the water surface + sun light heater provided in 71 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 72 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compress the air for increased heating to approach 1200 ° C + Accelerate the specific power vertically downward to increase the amount of power generation Aimed at all stages of the rotor blade gravity solar heat turbine with two types of 73 stages + Solar heater on the water surface Inclined engine with various energy storage cycles.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compress the air for increased heating to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by providing two types of all-blade gravity solar thermal turbines of 74 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compress the air for increased heating to approach 1200 degrees + accelerate the liquid crystal containing the alloy vertically downwards by rolling down the liquid indium to aim at increased power output by providing two types of rotor blade gravity solar thermal turbines in 75 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compresses the air for increased heating to approach 1200 degrees + accelerates the liquid roll containing high temperature alloy vertically downwards as rolling contact to increase power output by providing two types of rotor blade gravity solar thermal turbines in 76 stages + solar Various energy storage cycle combined engines that tilt and rotate the light heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compress the air for increased heating and approach to 1200 degrees + Liquid indium containing the alloy Compress the air by compressed air Acceleration of air by heating air to increase power output Two types of rotor blade gravity solar thermal turbines equipped with 77 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the amount of accelerated power generation aimed at increasing the amount of power generation Two types of vertical blade all type wing gravity solar thermal turbine provided in 78 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation capacity Two types of vertical blade all type gravity solar heat turbines are provided in 79 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface with 80 stages of vertical rotor full blade gravity solar thermal turbine aiming at increasing power generation by accelerating liquid-indium vertically downward and rolling contact.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical bladed full blade gravity solar thermal turbines provided in 81 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim to increase power output organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward to increase the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy materials vertically downward to increase power generation by installing 2 types of floating wing all blade gravity solar thermal turbine in 84 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 85 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 86 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 87 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 88 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 89 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation by accelerating to +.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines in which two types of vertical bladed full blade gravity solar heat turbines are installed in 90 stages to accelerate power rolling as vertical rolling contact and acceleration rolling contact + + a solar heater on a water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines equipped with two stages of 91 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by providing 92 stages of vertical rotor blade gravity solar heat turbines that heats air by compressed air acceleration to increase power generation capacity.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines provided in 93 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water, with 94 types of all moving blade gravity solar thermal turbines provided in 94 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 95 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 96 stages of 2 types of vertical wing type all blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity Two types of vertical wing type all blade gravity solar thermal turbine aimed at increase + 97 various energy preservation cycle combined engine which tilts and rotates a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate to increase the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar heat turbine aiming at 98 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier material vertically downward to increase power generation by installing 2 types of rotor blade gravity solar thermal turbines in 99 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 100 types of two-bladed full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 101 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the surface of the water + provided in 102 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 103 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 stages of 104 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines of two types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 106 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing all type wing gravity solar thermal turbine with 2 types of vertical rotor blades designed to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 108 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of all moving blade gravity solar thermal turbines in 109 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 110 stages of two types of vertical wing type all blade gravity solar thermal turbines to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 111 types of vertical solar blade gravity solar thermal turbines aiming at vertical motion.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 112 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical material accelerated downward vertically to increase power generation Aiming at all stages of blade-type all blade gravity solar thermal turbine with 113 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing two stages of floating wing all blade gravity solar thermal turbines in 114 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in 115 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to a temperature of 1200 degrees + accelerate the downward rolling contact of liquid indium containing high temperature alloy vertically downwards and aim at increasing the amount of power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 118 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing type all blade gravity solar heat turbine with 2 stages aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 120 stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blades designed to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical blade all type gravity solar thermal turbine installed in one stage + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of two types of vertical solar blade gravity solar thermal turbine + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward to increase the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 4-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 5 types of vertical blade all type gravity solar thermal turbines 5 types + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact aiming at increased power output as two types of rotor blade gravity solar thermal turbines 2 types 6 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface, which is provided in 7 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 8 types of vertical type all blade gravity solar thermal turbines aiming at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 9 types of vertical type all moving blade gravity solar thermal turbine to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 11 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface with 12 stages of vertical rotor blade gravity solar heat turbines equipped with 12 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by providing two types of gravity solar thermal turbines in 13 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 14 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 15 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with a total of 16 types of vertical solar blade gravity solar thermal turbines that aim at vertical rotation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 17 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downwards Increase the power generation aiming at the power generation of two blades of all blade gravity solar thermal turbines + solar heater with 18 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 19 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aim to increase the amount of power generation Two types of rotor blade gravity solar thermal turbines are provided in 20 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 21 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heat air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 23 types of solar power turbines + + Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation Two vertical stages of rotor blade gravity solar heat turbines are provided in 24 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 25 stages of vertical solar full power blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium in the vertical downward direction to increase the power generation capacity Two vertical rotor blade gravity solar thermal turbines equipped with 26 stages + Various energy storage cycle combined engines that rotate the solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating the air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of rotor blade gravity solar thermal turbines are provided in 27 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the specific power of the critical substance vertically downward increase of the power generation Aimed at 28 stages of 2 types of rotor type all blade gravity solar thermal turbine + solar Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 29-stage vertical wing moving blade gravity solar thermal turbines are provided + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 30 types of floating all blade gravity solar heat turbine type 2 + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 31 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water provided in 32 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines 2 types aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of 34 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 35-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 36 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 37 stages of 2 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 38 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 39 stages of 2 types of all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 40 stages of two types of vertical wing all type gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 41 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 42 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting all types of rotor blade gravity solar thermal turbines 2 types 43 stages of solar power turbine + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing two stages of floating wing all blade gravity solar thermal turbines in 44 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1,200 degrees + Liquid indium containing the alloy is accelerated downward in the vertical downward direction for rolling contact. Two 45% stages are provided with two types of rotor blade gravity solar thermal turbines to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to increase power output with 46 types of two bladed full blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air by compressed air Acceleration of total power blade gravity solar thermal turbine 2 types to 47 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two types of vertical blade all-rotor gravity solar heat turbines are provided in 48 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 49 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on water surface   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 50 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical bladed full blade gravity solar thermal turbines in 51 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration to increase power generation by combining 52 types of vertical rotor blade gravity solar thermal turbine + 52 types of various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavier material vertically downward to increase power generation by installing 2 types of rotor type full blade gravity solar thermal turbines in 54 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 55 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at increased power output as 56 types of floating solar blade gravity solar heat turbines 2 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, which is provided in 57 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 58 stages of two types of vertical bladed full blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 59 types of vertical rotor blade gravity solar heat turbines designed to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 60 stages of vertical rotor full blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 61 stages + Various energy storage cycle combined engines that tilt and rotate the solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 62 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 63 stages + sun light heaters are inclined on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water, which has two types of full blade gravity solar heat turbines in 64 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 65 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 66 stages of two types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 67 types of vertical solar full-wing gravity solar thermal turbines aiming to increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downward to increase the power generation rate Target the two types of vertical wing all blade gravity solar thermal turbine with 68 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by providing two types of wing-type all blade gravity solar thermal turbines in 69 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 71 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 73 kinds of solar power turbines + + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerates downward vertically to increase power generation. Two types of vertical blade all type gravity solar heat turbines are provided in 74 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that rotate the sun heater on the water surface by providing two stages of vertical rotor blade gravity solar thermal turbines in 75 stages aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines provided in 76 stages + Various energy conservation cycle combined engines that rotate the sun heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Two different types of energy saving cycle combining the solar rotor with tilt rotation on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward of the critical material Aiming at the increase of power generation aiming at two stages of the wing type all moving blade gravity solar thermal turbine + 78 Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens and make it approach 1200 degrees + Accelerate heavy material vertically downward to increase power generation by installing two kinds of vertical wing all type gravity solar thermal turbine in 79 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 80 types of two blades all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 81 types 81 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 82 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 83 types of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 84 stages of floating solar powered gravity turbines with 2 types of vertical blade type all-in-one gravity solar heat turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 85 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar heat turbine provided with 86 stages + various energy storage cycle combined engine to tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 87 vertical stages of all types of rotor blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines are provided in 88 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 89 types of all moving blade gravity solar thermal turbines in 89 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 90 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 91 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 92 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + ratio critical substance vertically downward accelerating power generation aiming at all types of rotor blade gravity solar thermal turbines 2 types 93 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-shaped full blade gravity solar thermal turbines in 94 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1,200 degrees + liquid indium containing the alloy vertically downward to accelerate the rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 95 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 96 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 98 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical blade all gravity wing solar thermal turbines are provided in 99 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 100% vertical rotor blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical wing all type gravity solar thermal turbine installed in 101 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical rotor blade gravity solar thermal turbines of 102 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation ratio increase of the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar thermal turbine aimed at 103 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier material vertically downward to increase power generation by providing 2 types of rotor type full blade gravity solar thermal turbines in 104 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power generation as two types of 105-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 106 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in the 107th stage.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 108 stages of 2 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 109 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 110 vertical stages of two-bladed full bladed gravity solar thermal turbine aiming at increased power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical rotor blade gravity solar thermal turbines equipped with 111 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface with 112 stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration and increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 113 stages + sun light heaters are tilted on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, with all the moving blade gravity solar thermal turbines provided in two stages of 114 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 115 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 116 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 117 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Aiming for the increase of the power generation with 2 types of paddle-type all blade gravity solar thermal turbines 118 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 119 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with two types of rotor blade gravity solar thermal turbines in one stage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by compressed air Acceleration of rotor blade All-rotor gravity solar heat turbine 2 types in 2 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbines are provided in three stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 5 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation aim to increase power generation with two types of vertical bladed full blade gravity solar thermal turbine + six kinds of energy storage cycle combined engine that tilts and rotates a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Two different types of energy saving cycle combining rotating solar rotors on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of rotor type all blade gravity solar thermal turbine provided 8 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy material vertically downward to aim at increase of power output + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 10 types of two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 11 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 12 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 13 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 14 stages of 2 types of vertical type all blade gravity solar heat turbine aiming at increase of power generation to increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of vertical rotor blade gravity solar heat turbines with two stages aiming to increase power generation as accelerated rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 16 stages + various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 17 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 18 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 19 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 20 stages of two types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 21 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 22 stages of 2 types of vertical solar blade gravity solar thermal turbines aiming to increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical substance accelerated downward vertically to increase power generation Aiming to increase power generation of two blades 23 types of rotor blade all gravity solar thermal turbine + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 24 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downward as rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 25 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor type full blade gravity solar thermal turbines in 26 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 28 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 29 stages of 2 types of vertical type all blade gravity solar heat turbines aiming to increase power generation capacity by accelerating them.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 30 vertical stages of all types of rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines with 31 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 32 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines 2 types aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of 34 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 35-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as acceleration rolling contact vertically downward.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 36 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 37 stages of 2 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 38 types of solar thermal turbines provided in 38 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output 39 types of moving blade gravity solar thermal turbines are provided in 39 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 40 stages of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 41 stages of 2 types of vertical wing type all blade gravity solar thermal turbines to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 42 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 43 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 44 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 45 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 46 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim Two types of solar thermal turbines are provided in 47 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 48 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 49 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that has two types of moving blade gravity solar heat turbines in 50 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 51 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 52 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 53 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 54 stages of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 55 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 56 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 57 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 58 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which is equipped with 59 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 60 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 61 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 62 stages of two types of vertical solar blade gravity solar thermal turbines to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 63 types of 2 types of vertical wing type all blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 64 stages of 2 types of vertical wing type all blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 65 types of vertical solar blade with a total blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 66 stages of two types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 67 types of vertical solar blade with two types of vertical blade all type gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface provided in the 68th stage.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 69 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface provided in 70 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines Various energy storage cycle combined engines that tilt and rotate on the water surface + sun light heater provided in 71 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 72 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 ° C + Accelerates the specific substance vertically downward to increase the amount of power generation Aiming at increasing the amount of power generation with two types of vertical blade all types of gravity solar thermal turbine 73 stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + accelerates heavier materials vertically downward to increase power generation by providing 2-stage 74-stage vertical wing rotory gravity solar thermal turbine + solar heater inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compress the air and move it closer to 1200 ° + Increase the output by accelerating the liquid indium containing the alloy vertically downwards as rolling contact with the rotor type All rotor blade Gravity solar heat turbine 2 types of 75 stages + Solar heater with water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses the temperature close to 1200 degrees + accelerates the generation capacity by accelerating liquid-inclination containing high temperature alloy downward downward as rolling contact with 2 types of rotor type all blade gravity solar thermal turbine with 76 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy Heat air by compressed air acceleration of liquid indium to aim at increase of power output Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the amount of accelerated power generation aimed at increasing the amount of power generation Two types of vertical blade all type wing gravity solar thermal turbine provided in 78 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation capacity Two types of vertical blade all type gravity solar heat turbines are provided in 79 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface with 80 stages of vertical rotor full blade gravity solar thermal turbine aiming at increasing power generation by accelerating liquid-indium vertically downward and rolling contact.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical bladed full blade gravity solar thermal turbines provided in 81 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim to increase power output organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward to increase the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy materials vertically downward to increase power generation by installing 2 types of floating wing all blade gravity solar thermal turbine in 84 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 85 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 86 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 87 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 88 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 89 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation by accelerating to +.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines in which two types of vertical bladed full blade gravity solar heat turbines are installed in 90 stages to accelerate power rolling as vertical rolling contact and acceleration rolling contact + + a solar heater on a water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines equipped with two stages of 91 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by providing 92 stages of vertical rotor blade gravity solar heat turbines that heats air by compressed air acceleration to increase power generation capacity.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines provided in 93 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water, with 94 types of all moving blade gravity solar thermal turbines provided in 94 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 95 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 96 stages of 2 types of vertical wing type all blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity Two types of vertical wing type all blade gravity solar thermal turbine aimed at increase + 97 various energy preservation cycle combined engine which tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting all types of rotor blade gravity solar thermal turbines 2 types of 98 types of solar power turbine + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 99 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aimed to increase power generation with two types of rotor blade gravity solar thermal turbines 100 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + liquid indium containing high temperature alloy accelerate vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 101 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerated acceleration of the power generation aimed at increasing the amount of power generation All types of rotor blade gravity solar heat turbine 2 types are provided in 103 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 stages of 104 types of vertical type all blade gravity solar heat turbine aiming at power generation increase by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 105-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed at increasing power generation as accelerated rolling contact vertically downward with liquid indium containing two types of vertical bladed full blade gravity solar thermal turbines in 106 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing all type gravity solar thermal turbines of 107 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of vertical blade with all types of gravity solar thermal turbine Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 109-stage all-wing full blade gravity solar thermal turbines are provided + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power generation as two-stage 110-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated downward vertically as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 111 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 112 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 113 stages of 2 types of vertical-type all moving-blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 114 types of vertical solar blade gravity turbines designed to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 115-stage vertical rotor blade gravity solar heat turbine aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 116 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 117 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water + which has two types of gravity solar thermal turbines in 118 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two types of all moving blade gravity solar thermal turbines in 119 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 120 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical solar blade with a total blade gravity solar heat turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical type all moving blade gravity solar thermal turbine aiming at increase + two stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aimed to increase the amount of generated power Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-shaped full blade gravity solar thermal turbines in 4 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in five stages to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by setting two types of rotor blade gravity solar thermal turbines in six stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of eight types of solar power turbine + + Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in nine stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical blade all type gravity solar thermal turbine installed in 11 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines of 12 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific material acceleration vertically downward to increase the amount of generated power Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width-increased heating of long lensed to approach 1200 degrees + Accelerated heavier material vertically downward to aim at increased power generation We installed two types of rotor blade gravity solar thermal turbines in 14 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 15 stages of 2 types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 16 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, which is provided in 17 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 18 types of vertical type all moving blades gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines of two types to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 20 stages of vertical rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with 2 types of vertical bladed all-rotor gravity solar heat turbines equipped with 21 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines with 22 stages of vertical rotor blade gravity solar heat turbines equipped with 22 stages of solar power turbines to heat the air by compressed air acceleration and increase power generation capacity + Tilting and rotating a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 23 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 24 stages of all moving blade gravity solar thermal turbines provided in 24 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 25 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 26 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 27 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downwards Increase the power generation aiming at 28 stages of 2 types of rotor type all blade gravity solar thermal turbine + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 29 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward as rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 30 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 31 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 33 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar generator on the water surface by providing 2 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 35 stages of vertical rotor full blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium in the vertical downward direction to increase power generation by using two types of vertical wing moving blade gravity solar thermal turbine with 36 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of 37% type of vertical solar blade gravity solar thermal turbine organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward of the critical material Aiming at the increase of the power generation capacity Two types of rotor type all blade gravity solar heat turbines are provided in 38 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 39-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 40 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 41 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, provided in 42 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 43 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 44 stages of 2 types of vertical blade all types of gravity solar thermal turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 45 stages of two types of vertical bladed full blade gravity solar thermal turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 46 stages + various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 47 stages of 2 types of vertical bladed full blade gravity solar heat turbines, which aim to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 48 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine which tilts and rotates a solar heater on the water surface equipped with 49 types of all moving blade gravity solar thermal turbines in 49 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 50 stages of two types of vertical wing all types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 52 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 52 stages of two types of vertical wing all type gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical material accelerated downward vertically to increase power generation Aiming at 52 stages of two types of all blade gravity solar thermal turbines + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by providing two stages of 55-stage vertical solar blade gravity solar thermal turbine + solar light Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with 56 types of two blade type all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 58 types of solar turbines + + Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades vertically downward to increase the amount of power generation Two vertical rotor blade gravity solar heat turbines with two stages of 59 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 60 stages of vertical rotor full blade gravity solar thermal turbine aiming at increasing power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two vertical rotor blade gravity solar thermal turbines provided in 61 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy storage cycle combination that tilts and rotates the solar heater on the water surface equipped with 2 stages of 2 types of vertical solar blade gravity solar thermal turbines organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power generation 2 types of rotor type whole blade gravity solar heat turbines provided with 63 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavier material vertically downward to aim at increase of power generation We installed two types of rotor type full blade gravity solar thermal turbine in 64 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 65 stages of two blades all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 66 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, provided at the 67th stage.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 68 stages of two types of vertical bladed full blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blade gravity solar heat turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 types of vertical wing type all blade gravity solar heat turbine aiming at increased power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical rotor blade gravity solar thermal turbines installed in 71 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface with 72 stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration to increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by installing two types of gravity solar thermal turbines in 73 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 74 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 75 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 76 stages of two types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 77 types of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aimed to increase the power generation with two types of paddle-type all blade gravity solar thermal turbines 78 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of wing-type all blade gravity solar thermal turbines in 79 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Liquid indium containing the alloy is accelerated downward in the vertical direction as rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in 80 stages to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 81 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air to accelerate power generation Two types of rotor blade gravity solar thermal turbines with 82 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 83 types of solar power turbine + + Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy conservation cycle combined engines that tilt the sun heater on the water surface by providing 2 stages of vertical rotor blade gravity solar heat turbines with 2 stages aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 85 stages of vertical rotor blade gravity solar thermal turbines designed to increase power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium downwards vertically as an accelerated rolling contact with two types of vertical bladed full blade gravity solar thermal turbines provided in 86 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increase of power output organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power production Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate a heavier material vertically downward to increase power generation Two 89-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 90 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 2 types 91 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, provided in 92 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 93 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 94 types of floating solar powered turbines with 2 types of vertical blade all type gravity solar thermal turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 95-stage vertical rotor blade gravity solar heat turbine aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines equipped with 96 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines are provided in 98 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of all moving blade gravity solar thermal turbines in 99 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 100 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 101 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 102 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting 2 types of vertical wing all blade gravity solar thermal turbines + solar heater with 103 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 104 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward as rolling contact to increase power output by installing 2 types of rotor blade gravity solar thermal turbines in 105 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with two types of rotor blade gravity solar thermal turbines with 106 stages in two stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air to accelerate power generation Two types of rotor blade gravity solar thermal turbines with 107 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Vertical-type all moving blades Gravity-type solar heat turbine Two kinds of 108 types of + + Various kinds of energy storage cycle combined engine that tilts and rotates a solar heater on water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity. Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical wing all gravity wing solar thermal turbines in 109 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 110 stages of vertical type all moving blades gravity solar thermal turbine aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical blade all type gravity solar thermal turbine installed in 111 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increase of the power generation capacity. Various energy conservation cycle combination that tilts and rotates the solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines of 112 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of air of width increase heating of long lens to make it approach 1200 degrees + Acceleration of the power generation ratio increase of the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar thermal turbine aimed at 113 stages + solar light Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy material vertically downward to increase power generation by installing 2 types of wing-shaped full blade gravity solar thermal turbines in 114 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 2 types of 115-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines of two types 116 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface, which is provided in 117 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 118 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 119 stages of 2 types of vertical solar blade gravity solar thermal turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 120 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation A double rotor type all blade gravitational solar heat turbine equipped with two stages in one stage + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration to increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water + two types of gravity solar thermal turbines are provided in three stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with four types of all moving blade gravity solar thermal turbines in four stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 5 stages of 2 types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with six types of vertical solar blade with two types of vertical blade all type gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 7 types of vertical type all moving blade gravity solar thermal turbine aiming at increase + stage.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aimed at all stages of the blade type all blade gravity solar thermal turbine 2 types + solar heater with 8 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-shaped all blade gravity solar thermal turbines in 9 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as a rolling contact to aim at increasing the amount of power generation Two types of rotor blade gravity solar thermal turbines are provided in 10 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 11 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 13 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 14 stages of vertical rotor blade gravity solar heat turbines 2 types aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines aiming to increase power generation by accelerating liquid-indium vertically downward and rolling contact.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation as accelerated rolling contact with liquid indium in the vertical downward direction Including two types of vertical bladed full blade gravity solar thermal turbines in 16 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim at increasing power generation capacity. Various energy storage cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines of 17 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power generation 2 types of rotor type all blade gravity solar heat turbines of 18 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power output Two types of rotor blade gravity solar thermal turbines are provided in 19 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 20 stages of two-bladed full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines of 21 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 22 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 23 stages of 2 types of vertical type all moving blades gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 24 stages of 2 types of vertical type all blade gravity solar heat turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 25 stages of 2 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with 26 types of vertical rotor blade gravity solar heat turbines equipped with 26 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 27 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards 28 types of gravity solar thermal turbines are provided in 28 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 29 types of all moving blade gravity solar thermal turbines in 29 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 30 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 31 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 32 types of vertical solar blade gravity solar thermal turbines aimed at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aimed to increase the amount of generated power Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation Two 34-stage vertical wing buckets with all kinds of gravity solar thermal turbines + solar light Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by setting two types of rotor blade gravity solar thermal turbines in 36 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at increase of power generation + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 38 stages of 2 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 39-stage vertical solar bladed gravity turbines designed to accelerate power generation and increase power generation capacity.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 40 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines equipped with 41 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 42 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 43 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 44 stages of 2 types of vertical blade all types of gravity solar thermal turbine to accelerate power generation and increase power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 45 stages of two types of vertical bladed full blade gravity solar thermal turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 46 stages + various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 47 stages of 2 types of vertical bladed full blade gravity solar heat turbines, which aim to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engines in which solar heat turbines are tilt-rotated on the water surface, with two types of solar thermal turbines provided in 48 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 49 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 50 stages of 2 types of vertical wing type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water with 51 stages of 2 types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 52 stages of 2 types of vertical type all moving blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 53 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water by providing two stages of solar heat turbines in 54 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim Two types of solar thermal turbines are provided in 55 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 56 types of two solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim Two types of solar thermal turbines are provided in 57 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar heat turbines are provided in 58 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 59 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 60 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 61 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 62 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 63 types of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 64 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 65 types of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 66 stages of two types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 67 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 68 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 69 types of two types of floating wing type gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 71 stages of two types of vertical wing type all moving blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 72 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 73 stages of two types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 74 stages of two types of vertical type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 75 types of vertical solar blade with a total blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 76 stages of two types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 77 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 78 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 79 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 80 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 81 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 82 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses to approach 1200 ° C + Accelerates the specific substance vertically downward to increase the amount of power generation Aiming at increasing the amount of power generation Two types of vertical blade with all kinds of gravity solar thermal turbines in 83 stages + Various types of tilting and rotating the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + accelerates heavier materials vertically downward to increase power generation by installing all types of rotor blade gravity solar thermal turbines 2 types in 84 stages + solar heater inclined on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compress the air and move it closer to 1200 ° + Accelerate the power output by accelerating the liquid indium containing the alloy vertically downwards as rolling contact with the rotor type All blade gravitational solar heat turbine 2 types of 85 stages + Solar heater with water surface A variety of energy storage cycle coalescing engines that tilt and rotate on top.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Accelerates the generation capacity by accelerating liquid-inclination containing high temperature alloy vertically downwards as rolling contact with 2 types of floating wing all blade gravity solar thermal turbine with 86 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses the air close to 1200 ° + Accelerating air by heating the air with liquid indium containing alloy by compressed air acceleration to increase power generation Two 87 types of rotor blade gravity solar thermal turbines are provided in 87 stages + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two vertical rotor blade gravity solar heat turbines of two types are provided in 88 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerates vertically downward to increase power generation. Two types of vertical wing all gravity wing solar thermal turbines are provided in 89 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy storage cycle combined engines that rotate the sun heater on the water surface by providing two stages of vertical rotor type gravity solar thermal turbines with 90 types of vertical rotor blades aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase the power output aiming at increasing power generation Two vertical rotor blade gravity solar thermal turbines are provided in 91 stages + Various energy storage cycle merging engines that rotate the solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration to increase power generation Two vertical stages of rotor blade gravity solar thermal turbines are provided in 92 stages + Various energy storage cycle combinations that rotate the solar heater on the water surface by tilting organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of rotor type whole blade gravity solar thermal turbines are provided in 93 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation by providing 2 types of rotor blade gravity solar thermal turbines 94 types in 94 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 95 types of two-blade all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 2 types 96 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 97 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 98 stages of vertical rotor blade gravity solar thermal turbines 2 types aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 99 types of vertical rotor blade gravity solar thermal turbines with 2 types of vertical rotor blade gravity solar thermal turbines to accelerate and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 100% vertical rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical rotor blade gravity solar thermal turbines equipped with 101 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 102 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 103 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water, which has 2 types of all moving blade gravity solar thermal turbines in 104 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 105 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 106 types of vertical type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 107 vertical stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 ° C + Accelerate the specific power vertically downward to increase the amount of power generation Aimed to increase the amount of generated power Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of vertical wing all blade gravity solar thermal turbines in 109 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in 110 stages to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing high temperature alloy as the rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbines are provided in 113 stages + Various energy storage cycle combined engines that rotate the solar heater on the water surface by tilting.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical blade all gravity wing solar thermal turbines are provided in 114 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 115-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation as accelerated rolling contact with liquid indium in the vertical downward direction including two types of vertical wing moving blade gravity solar thermal turbines in 116 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration to increase power generation Two vertical type rotor blades Gravity solar thermal turbines are provided in 117 stages + Various energy storage cycle combinations that rotate the solar heater on the water surface by tilting rotation organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate to increase the ratio critical substance vertically downward 2 types of vertical blade with all kinds of blade gravity solar thermal turbines provided in 118 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + To increase the generation capacity by compressing the air of width increase heating of the long lens and making it approach 1200 degrees + to accelerate the heavier amount vertically downward by heavy material We installed two types of rotor blade gravity solar thermal turbines in 119 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 120 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact to aim at increased power generation as two types of rotor blade gravity solar thermal turbines 1 type Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in two stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with three types of vertical type all moving blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with four stages of vertical rotor blade gravity solar heat turbines with two types to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 5 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in six stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 7 types of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water + provided with two types of gravity solar thermal turbines in eight stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 9 types of all moving blade gravity solar thermal turbines in 9 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 10 stages of two types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 11 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 12 stages of 2 types of vertical solar blade gravity solar thermal turbines aimed at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Accelerate the specific power vertically downward to increase the power generation rate Targeting all types of rotor blade gravity solar thermal turbines 2 types in 13 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation Two 14-stage vertical solar blade gravity solar thermal turbines are provided in 14 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downward for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with 2 types of rotor blade gravity solar thermal turbines in 16 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air to accelerate power generation 2 types of rotor blade gravity solar thermal turbines 2 types to 17 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward accelerating power generation aimed at all types of rotor blade gravity solar heat turbine Two kinds of 18 types of solar power turbine + + Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines with two types of vertical wing to accelerate power generation downward to increase power generation.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 20 stages of 2 types of vertical wing all types of wing gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation capacity Two types of vertical rotor blade gravity solar thermal turbines are provided in 21 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating the air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of rotor blade gravity solar thermal turbines are provided in 22 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the specific power of the critical substance vertically downward increase of the power generation Aimed at 23 stages of 2 types of rotor type all blade gravity solar thermal turbine + solar Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power output Two types of rotor blade gravity solar thermal turbines are provided in 24 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 25 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy 26 Compressing the air of width increase heating of the long lens and approaching the temperature of 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increasing power output as two types of rotor blade gravity solar thermal turbines 26 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface, which is provided in 27 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 28 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 29 stages of 2 types of vertical type all blade gravity solar heat turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 30 vertical stages of all types of rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines with 31 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 32 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which has two types of gravity solar thermal turbines in 33 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 34 types of all types of blade gravity solar thermal turbines in 34 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 35 stages of two types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 36 stages of two types of vertical type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 37-stage vertical solar full-wing gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aim to build 38 stages of two types of all blade gravity solar thermal turbine + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 39 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aim to increase power output with two types of rotor blade gravity solar thermal turbines equipped with 40 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 41 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerated acceleration of the power generation aimed at increasing the amount of power generation Two vertical rotor blade gravity solar heat turbine provided with two stages in 43 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical blade all gravity wing solar thermal turbines are provided in 44 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 45 stages of vertical solar full power blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines in 46 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of 2 types of vertical bladed gravity solar thermal turbines organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of the width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increasing the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier material vertically downward to increase power generation by providing 2 types of rotor blade gravity solar thermal turbines in 49 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 50 stages of 2 types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the air of heating to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward rolling as rolling contact to aim at increasing power output as two types of rotor blade gravity solar thermal turbines 51 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 52 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 53 types of vertical type all moving blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 54 stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 55-stage vertical rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbine with 56 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of 57 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines are provided in 58 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 59 types of all moving blade gravity solar thermal turbines in 59 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 60 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 61 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 62 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downward to increase the power generation rate Targeting all types of rotor blade gravity solar thermal turbines with two types of 63 stages of solar power + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing two types of vertical wing all type gravity solar thermal turbines 64 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as a rolling contact to increase power generation by installing two types of rotor blade gravity solar thermal turbines in 65 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with 2 types of rotor blade gravity solar thermal turbines with 66 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Vertical-type all moving blades Gravity-type solar heat turbine Two types of 68 stages of + solar power heater tilt rotation on the water surface combined with various energy storage cycle engines.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 69 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 vertical stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two vertical blade rotors installed with 71 stages of gravity solar thermal turbines + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increase of power generation. Various types of energy storage cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbine 72 types organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of rotor blade gravity solar thermal turbines of 73 stages + solar light Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate a heavier material vertically downward to increase power generation by installing two types of rotor type full blade gravity solar heat turbines in 74 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 75 stages of two blades all types of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air of heating to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate vertically downward as rolling contact to aim at increasing power output as two types of rotor blade gravity solar thermal turbine 2 types 76 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in the 77th stage.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 78 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 79 types of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blade gravity solar heat turbines to accelerate and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 80 stages of two types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbine provided with 81 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 82 stages of vertical rotor blade gravity solar thermal turbines 2 types aiming at increasing power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 83 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 84 types of all moving blade gravity solar thermal turbines in 84 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 85 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 86 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 87 types of 2 types of vertical wing all type gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downwards Increase the power generation aiming at increasing the amount of power generation Set the 88 types of rotor type all blade gravity solar thermal turbines + solar heater with 88 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 89 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature close to 1200 ° + liquid indium containing the alloy vertically downward to accelerate the rolling contact to increase power output by using two types of rotor blade gravity solar thermal turbines in 90 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 91 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two types of 93 types of solar power turbines + + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 94 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 95 stages of vertical type all moving blades gravity solar thermal turbine aiming at increasing power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase the power output aiming at increasing power generation Two vertical rotor blade gravity solar thermal turbines equipped with 96 stages + Various energy conservation cycle combined engines that rotate the sun heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing bucket type solar thermal turbines of 97 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate to increase the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar heat turbine aiming at 98 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier material vertically downward to increase power generation by installing 2 types of rotor blade gravity solar thermal turbines in 99 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 100 types of two-bladed full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 101 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the surface of the water + provided in 102 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 103 types of vertical wing type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 stages of 104 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines of two types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 106 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing all type wing gravity solar thermal turbine with 2 types of vertical rotor blades designed to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 108 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of all moving blade gravity solar thermal turbines in 109 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 110 stages of two types of vertical wing type all blade gravity solar thermal turbines to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 111 types of vertical solar blade gravity solar thermal turbines aiming at vertical motion.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 112 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical material accelerated downward vertically to increase power generation Aiming at all stages of blade-type all blade gravity solar thermal turbine with 113 stages + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing two stages of floating wing all blade gravity solar thermal turbines in 114 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in 115 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to a temperature of 1200 degrees + accelerate the downward rolling contact of liquid indium containing high temperature alloy vertically downwards and aim at increasing the amount of power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 118 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing type all blade gravity solar heat turbine with 2 stages aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 120 stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blades designed to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with two types of vertical blade all type gravity solar thermal turbine installed in one stage + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of two types of vertical solar blade gravity solar thermal turbine + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward to increase the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 4-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 5 types of vertical blade all type gravity solar thermal turbines 5 types + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact aiming at increased power output as two types of rotor blade gravity solar thermal turbines 2 types 6 Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface, which is provided in 7 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 8 types of vertical type all blade gravity solar thermal turbines aiming at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 9 types of vertical type all moving blade gravity solar thermal turbine to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 11 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface with 12 stages of vertical rotor blade gravity solar heat turbines equipped with 12 types of vertical rotor blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by providing two types of gravity solar thermal turbines in 13 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 14 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 15 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with a total of 16 types of vertical solar blade gravity solar thermal turbines that aim at vertical rotation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 17 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the specific power vertically downwards Increase the power generation aiming at the power generation of two blades of all blade gravity solar thermal turbines + solar heater with 18 stages Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 19 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aim to increase the amount of power generation Two types of rotor blade gravity solar thermal turbines are provided in 20 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 21 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heat air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of 23 types of solar power turbines + + Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation Two vertical stages of rotor blade gravity solar heat turbines are provided in 24 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 25 stages of vertical solar full power blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium in the vertical downward direction to increase the power generation capacity Two vertical rotor blade gravity solar thermal turbines equipped with 26 stages + Various energy storage cycle combined engines that rotate the solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating the air by compressed air acceleration of liquid indium to increase power generation Two vertical stages of rotor blade gravity solar thermal turbines are provided in 27 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the specific power of the critical substance vertically downward increase of the power generation Aimed at 28 stages of 2 types of rotor type all blade gravity solar thermal turbine + solar Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 29-stage vertical wing moving blade gravity solar thermal turbines are provided + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power output 30 types of floating all blade gravity solar heat turbine type 2 + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 31 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water provided in 32 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines 2 types aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of 34 types of vertical rotor blade gravity solar thermal turbines to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 35-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 36 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 37 stages of 2 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 38 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 39 stages of 2 types of all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 40 stages of two types of vertical wing all type gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 41 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 42 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting all types of rotor blade gravity solar thermal turbines 2 types 43 stages of solar power turbine + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing two stages of floating wing all blade gravity solar thermal turbines in 44 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1,200 degrees + Liquid indium containing the alloy is accelerated downward in the vertical downward direction for rolling contact. Two 45% stages are provided with two types of rotor blade gravity solar thermal turbines to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to increase power output with 46 types of two bladed full blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy alloy Compress air to accelerate air by heating air by compressed air Acceleration of total power blade gravity solar thermal turbine 2 types to 47 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 48 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 49 types of vertical solar blade turbines with 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation capacity by accelerating them.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 50 stages of 2 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical rotor blade gravity solar thermal turbines provided in 51 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by providing 52 stages of vertical rotor blade gravity solar heat turbines that heats the air by compressed air acceleration to increase power generation capacity.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 53 types of vertical type all moving blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 54 stages of vertical rotor blade gravity solar thermal turbines with two types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation capacity.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 55-stage vertical rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbine with 56 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of 57 types of vertical bladed full blade gravity solar heat turbines aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim Two types of solar thermal turbines provided in 58 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 59 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 60 stages of two types of vertical wing type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 61 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 62 stages of 2 types of vertical type all moving blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 63 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 64 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim Two types of solar thermal turbines provided in 65 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 66 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heated lens to approach 1200 degree + Ratio specific substance accelerate vertically downward power generation Aim at rotor blade gravity aim A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 67 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 68 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines are provided in 69 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output 70 types of moving blade gravity solar thermal turbines are provided in 70 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 71 stages of two types of moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier substances vertically downward to increase power output Two types of moving blade gravity solar thermal turbines provided in 72 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 73 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 74 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 75 types of two types of vertical-type full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 76 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 77 types of 2 types of vertical wing type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 78 types of two types of floating wing type gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 79 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 80 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 81 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 82 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 83 stages of two types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 84 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 85 stages of two types of vertical solar blade gravity solar thermal turbines aiming at vertical motion.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 86 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 87 vertical stages of two types of vertical solar blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 88 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface provided in 89 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 90 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the surface of the water, provided at 91 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 degrees + Same water mass Maximize power generation amount Two types of rotor blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, provided in 92 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 ° C + Accelerates the specific substance vertically downward to increase the amount of power generation Aiming at increasing the power generation capacity of two rotor blade gravity solar thermal turbines 2 types in 93 stages + Various types of tilting and rotating the solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Accelerates heavier materials vertically downward to increase power generation by providing two types of vertical bladed full blade gravity solar thermal turbines in 94 stages + Tilting a solar heater on the water surface Various energy storage cycle coalescing engine to rotate.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy is accelerated downward vertically to accelerate rolling contact to increase power generation with two types of rotor blade gravity solar heat turbines with 95 stages of + solar heater on water surface A variety of energy storage cycle coalescing engines that tilt and rotate on.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Accelerates the generation capacity by accelerating liquid-inclination containing high temperature alloy vertically downward as rolling contact with 2 types of rotor type whole blade gravity solar thermal turbines with 96 stages of + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy Heats air by compressed air acceleration of liquid indium to increase power generation Aiming at increasing power generation Two types of rotor blade gravity solar thermal turbines are provided in 97 stages + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the power generation to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 98 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical blade all gravity wing solar thermal turbines are provided in 99 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 100% vertical rotor blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical wing all type gravity solar thermal turbine installed in 101 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical rotor blade gravity solar thermal turbines of 102 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation ratio increase of the ratio critical substance vertically downward Two types of vertical wing all blade gravity solar thermal turbine aimed at 103 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier material vertically downward to increase power generation by providing 2 types of rotor type full blade gravity solar thermal turbines in 104 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downward as rolling contact to aim at increased power generation as two types of 105-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 106 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in the 107th stage.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 108 stages of 2 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 109 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 110 vertical stages of two-bladed full bladed gravity solar thermal turbine aiming at increased power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical rotor blade gravity solar thermal turbines equipped with 111 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface with 112 stages of vertical rotor blade gravity solar heat turbines designed to heat the air by compressed air acceleration and increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 113 stages + sun light heaters are tilted on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, with all the moving blade gravity solar thermal turbines provided in two stages of 114 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 115 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 116 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 117 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Aiming for the increase of the power generation with 2 types of paddle-type all blade gravity solar thermal turbines 118 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 119 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with two types of rotor blade gravity solar thermal turbines in one stage + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by compressed air Acceleration of rotor blade All-rotor gravity solar heat turbine 2 types in 2 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration to increase the amount of power generation Two types of vertical rotor blade gravity solar heat turbines are provided in three stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 5 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation aim to increase power generation with two types of vertical bladed full blade gravity solar thermal turbine + six kinds of energy storage cycle combined engine that tilts and rotates a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Two different types of energy saving cycle combining rotating solar rotors on the water surface organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of rotor type all blade gravity solar thermal turbine provided 8 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy material vertically downward to aim at increase of power output + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 10 types of two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 11 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 12 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 13 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 14 stages of 2 types of vertical type all blade gravity solar heat turbine aiming at increase of power generation to increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two stages of vertical rotor blade gravity solar heat turbines with two stages aiming to increase power generation as accelerated rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 16 stages + various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 17 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 18 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 19 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 20 stages of two types of vertical wing type all moving blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 21 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 22 stages of 2 types of vertical solar blade gravity solar thermal turbines aiming to increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical substance accelerated downward vertically to increase power generation Aiming to increase power generation of two blades 23 types of rotor blade all gravity solar thermal turbine + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 24 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downward as rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 25 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor type full blade gravity solar thermal turbines in 26 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerated acceleration of the power generation aimed at increasing the amount of power generation All types of rotor blade gravity solar heat turbine 2 types of 28 stages + + various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in 29 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy storage cycle combined engines that rotate the sun heater on the water surface by providing 30 stages of vertical rotor full blade gravity solar heat turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical bladed full blade gravity solar thermal turbine installed in 31 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim to increase power output organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical substance vertically downward aiming at increase of the power generation capacity Two types of rotor type whole blade gravity solar thermal turbines are provided in 33 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width-increased heating of long lensed to approach 1200 degrees + Accelerated heavier material vertically downward to aim at increased power output Two types of rotor blade gravity solar thermal turbines are provided in 34 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 35 types of two-blade all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 36 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 37 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 38 stages of 2 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 39-stage vertical solar bladed gravity turbines designed to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 40 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with two types of vertical bladed full blade gravity solar thermal turbines equipped with 41 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 42 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by providing two stages of gravity solar thermal turbines in 43 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 44 stages of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 45 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 46 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 47 types of vertical solar full-wing gravity solar thermal turbines aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aiming at increasing the amount of power generation With two types of vertical blade moving solar thermal turbines of 48 stages + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by providing 2 types of vertical wing all blade gravity solar thermal turbines in 49 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aim to increase power output with two types of wing-type full blade gravity solar thermal turbines in 50 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to a temperature of 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downwards as rolling contact to increase power output by installing 2 types of rotor blade gravity solar thermal turbines in 51 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to increase power generation + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at 52 types of vertical bladed all moving blade gravity solar heat turbines + + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation A double-type all-blade gravity solar heat turbine equipped with two stages of 54 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 55 vertical stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Including various types of energy saving cycle combined engines that tilts and rotates a solar heater on the water surface equipped with 56 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium containing vertically downward. .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration to increase power generation by combining two types of vertical rotor blade gravity solar thermal turbines in 57 stages + Various energy storage cycle combinations that rotate the solar heater on the water surface by tilting rotation organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of rotor blade gravity solar thermal turbines of 58 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate a heavier material vertically downward to increase power generation by providing two types of rotor blade gravity solar thermal turbines in 59 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 60 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 61 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water provided at 62 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 63 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 64 types of vertical solar blade turbines with two types of vertical blade all types of gravity solar thermal turbines aiming to increase power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines with two stages aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines provided with two stages 66 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 67 types of vertical rotor blade gravity solar heat turbines that heats the air by compressed air acceleration and aims to increase power generation.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle coalescing engines, in which two types of gravity solar thermal turbines are provided in 68 stages, and a solar heater is inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 69 types of all moving blade gravity solar thermal turbines in 69 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 71 stages of two types of vertical wing type all blade gravity solar thermal turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 72 stages of 2 types of vertical wing type all blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 ° C + Accelerate the specific power vertically downward to increase the power generation target Two 73-stage vertical wing rotor blade gravity solar thermal turbines + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing two stages of wing-type all blade gravity solar thermal turbines in 74 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aim to increase power generation by providing two types of rotor blade gravity solar thermal turbines in 75 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 76 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerating the amount of accelerated power generation aimed at increasing the amount of power generation Two types of vertical blade all type wing gravity solar thermal turbine provided in 78 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing power generation capacity Two types of vertical blade all type gravity solar heat turbines are provided in 79 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface with 80 stages of vertical rotor full blade gravity solar thermal turbine aiming at increasing power generation by accelerating liquid-indium vertically downward and rolling contact.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical bladed full blade gravity solar thermal turbines provided in 81 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air with liquid indium in compressed air acceleration and aim to increase power output organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward to increase the amount of power generation Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of the long lens Close to 1200 degrees + Accelerate heavy materials vertically downward to increase power generation by installing 2 types of floating wing all blade gravity solar thermal turbine in 84 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 85 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated vertically downwards as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 86 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 87 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 88 types of vertical type all blade gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 89 stages of 2 types of vertical wing all types of gravity solar thermal turbines aiming to increase power generation by accelerating to +.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines in which two types of vertical bladed full blade gravity solar heat turbines are installed in 90 stages to accelerate power rolling as vertical rolling contact and acceleration rolling contact + + a solar heater on a water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines equipped with two stages of 91 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that rotate the solar heater on the water surface by providing 92 stages of vertical rotor blade gravity solar heat turbines that heats air by compressed air acceleration to increase power generation capacity.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards Two types of gravity solar thermal turbines provided in 93 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of the water, with 94 types of all moving blade gravity solar thermal turbines provided in 94 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 95 stages of two types of floating wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 96 stages of 2 types of vertical wing type all blade gravity solar thermal turbines aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity Two types of vertical wing type all blade gravity solar thermal turbine aimed at increase + 97 various energy preservation cycle combined engine which tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the power generation Targeting all types of rotor blade gravity solar thermal turbines 2 types of 98 types of solar power turbine + Solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by providing 2 types of paddle-type all blade gravity solar thermal turbines in 99 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air for heating to approach 1200 degrees + Accelerate the liquid downward with liquid indium containing the alloy vertically as rolling contact Aimed to increase power generation with two types of rotor blade gravity solar thermal turbines 100 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + liquid indium containing high temperature alloy accelerate vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 101 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically accelerated acceleration of the power generation aimed at increasing the amount of power generation All types of rotor blade gravity solar heat turbine 2 types are provided in 103 stages + Various energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 stages of 104 types of vertical type all blade gravity solar heat turbine aiming at power generation increase by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 105-stage vertical rotor blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed at increasing power generation as accelerated rolling contact vertically downward with liquid indium containing two types of vertical bladed full blade gravity solar thermal turbines in 106 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 types of vertical wing all type gravity solar thermal turbines of 107 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the power generation rate of the critical material vertically downward aiming at increase of the power generation capacity Two types of vertical blade with all types of gravity solar thermal turbine Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 109-stage all-wing full blade gravity solar thermal turbines are provided + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power generation as two-stage 110-stage two-blade full blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion Heating air compressed to approach 1200 degrees + Liquid indium containing high temperature alloy accelerated downward vertically as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 111 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 112 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 113 stages of 2 types of vertical-type all moving-blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 114 types of vertical solar blade gravity turbines designed to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 115-stage vertical rotor blade gravity solar heat turbine aiming at increasing power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines of two types are provided in 116 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 117 stages of vertical rotor blade gravity solar heat turbines 2 types aiming to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water + which has two types of gravity solar thermal turbines in 118 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with two types of all moving blade gravity solar thermal turbines in 119 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 120 stages of two types of vertical wing type all blade gravity solar thermal turbine to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical solar blade with a total blade gravity solar heat turbine aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical type all moving blade gravity solar thermal turbine aiming at increase + two stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downward to increase the amount of power generation Aimed to increase the amount of generated power Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of paddle-shaped full blade gravity solar thermal turbines in 4 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. Two types of rotor blade gravity solar thermal turbines are provided in five stages to increase power generation. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by setting two types of rotor blade gravity solar thermal turbines in six stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration power generation aimed at All types of rotor blade gravity solar heat turbine Two kinds of eight types of solar power turbine + + Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Vertically accelerating the blades downward to aim at increasing the power generation capacity Two types of vertical bladed full blade gravity solar heat turbines are provided in nine stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of 2 types of vertical rotor blade gravity solar thermal turbines aiming to increase power generation as accelerated rolling contact with liquid indium downward vertically.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction to accelerate the rolling contact to increase power generation with 2 types of vertical blade all type gravity solar thermal turbine installed in 11 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity. Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines of 12 types. organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific material acceleration vertically downward to increase the amount of generated power Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width-increased heating of long lensed to approach 1200 degrees + Accelerated heavier material vertically downward to aim at increased power generation We installed two types of rotor blade gravity solar thermal turbines in 14 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 15 stages of 2 types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 16 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, which is provided in 17 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 18 types of vertical type all moving blades gravity solar thermal turbine aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines of two types to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 20 stages of vertical rotor blade gravity solar heat turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate downward rolling contact to increase power generation with 2 types of vertical bladed all-rotor gravity solar heat turbines equipped with 21 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines with 22 stages of vertical rotor blade gravity solar heat turbines equipped with 22 stages of solar power turbines to heat the air by compressed air acceleration and increase power generation capacity + Tilting and rotating a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 23 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 24 stages of all moving blade gravity solar thermal turbines provided in 24 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 25 stages of two types of vertical wing type all blade gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 26 stages of 2 types of vertical type all moving blades gravity solar thermal turbines aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 27 stages of 2 types of vertical wing type full blade gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 ° + Accelerate the specific power vertically downwards Increase the power generation aiming at 28 stages of 2 types of rotor type all blade gravity solar thermal turbine + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier material vertically downward to increase power generation by providing 2 types of rotor type all blade gravity solar thermal turbines in 29 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid indium containing the alloy vertically downward as rolling contact to increase power output by installing two types of rotor blade gravity solar thermal turbines in 30 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output by providing 2 types of rotor blade gravity solar thermal turbines in 31 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Liquid indium containing an alloy Compress the air by compressed air Acceleration of air by heating air to aim at power generation increase + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Vertically downward acceleration to increase the amount of power generation Two types of vertical rotor blade gravity solar thermal turbines are provided in 33 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material Various types of energy storage cycle combined engines that rotate the solar heater on the water surface by tilting the solar generator on the water surface by providing 2 stages of vertical rotor blade gravity solar heat turbines with 2 types aiming at increasing power generation by accelerating vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A variety of energy conservation cycle combined engines that rotate the sun heater on the water surface by providing 35 stages of vertical rotor full blade gravity solar thermal turbine aiming to increase power generation as accelerated rolling contact with liquid indium downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Aimed to increase power generation by accelerating the liquid indium in the vertical downward direction to increase power generation by using two types of vertical wing moving blade gravity solar thermal turbine with 36 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface .   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy We aim to increase power generation by heating air by compressed air acceleration of liquid indium and aim at increasing power generation capacity Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with two stages of 37% type of vertical solar blade gravity solar thermal turbine organ.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Acceleration of the critical power vertically downward of the critical material Aiming at the increase of the power generation capacity Two types of rotor type all blade gravity solar heat turbines are provided in 38 stages + sunlight Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate heavier materials vertically downward to increase power generation Two 39-stage vertical wing buckets with all kinds of gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated vertically downwards as rolling contact to aim at increased power output as 40 stages of two types of rotor blade gravity solar thermal turbines + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to aim at increased power output as two types of rotor blade gravity solar thermal turbines 41 types Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air by heating air to aim at power generation increase Two types of floating solar blade gravity solar heat turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, provided in 42 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward Various types of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 43 stages of 2 types of vertical bladed full blade gravity solar thermal turbines aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 44 stages of 2 types of vertical blade all types of gravity solar thermal turbine to accelerate power generation and increase power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 45 stages of two types of vertical bladed full blade gravity solar thermal turbines aiming to increase power generation as acceleration rolling contact vertically downward.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically accelerate the rolling contact to increase power generation as an aim to increase the amount of power generation Two vertical rotor blade gravity solar thermal turbines are provided in 46 stages + various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 47 stages of 2 types of vertical bladed full blade gravity solar heat turbines, which aim to increase power generation by heating air by compressed air acceleration.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens Compress the air of heating lens to make it approach 1200 degrees + accelerate the specific power of the critical material vertically downwards A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 48 stages of two types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + Width increase of long lens Compress air of heating lens to approach 1200 degree + Ax shape to aim at power generation increase by accelerating heavier material vertically downward All types of energy saving cycle combined engine which tilts and rotates a solar heater on the water surface equipped with 49 types of all moving blade gravity solar thermal turbines in 49 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is equipped with 50 stages of two types of vertical wing all types of gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 52 stages of 2 types of vertical solar blade gravity solar thermal turbines that aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface that is equipped with 52 stages of two types of vertical wing all type gravity solar thermal turbine aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Heating air is compressed to approach 1200 degrees + Specific critical material accelerated downward vertically to increase power generation Aiming at 52 stages of two types of all blade gravity solar thermal turbines + solar heater Various energy storage cycle united engines that tilt and rotate on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by providing two stages of 55-stage vertical solar blade gravity solar thermal turbine + solar light Various energy storage cycle combined engines that tilt and rotate the heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Increase the width of the lens and compress the air to a temperature of 1200 degrees + accelerate the liquid downward with liquid indium containing the alloy vertically downwards for rolling contact. + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerates vertically downward as rolling contact to increase power output with 56 types of two blade type all blade gravity solar thermal turbine + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it close to 1200 ° + Liquid indium containing alloy Compress air with compressed air to heat air by air boost to increase power output + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the critical power vertically downward The heat sink with two heat sinks equipped with two types of thermal solar turbines in 58 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 59 thermal stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water, provided in 60 stages.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 61 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Turbine blade cross section (4X) 2 to 26 times gravity Solar power generation Seawater temperature rise 0 Fuel cost 0 CO2 exhaust 0 Power generation increase + heat retention increase Spherical lifter (2F) to rise and use liquid indium containing alloy + use long Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 62 types of types.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Heat absorbing material collected in a straight line + Heat retention increase ball rising device (2F) to use liquid indium containing alloy to rise and save + Long lens width increase heating Compress air to approach 1200 degrees + ratio critical substance A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 63 vertical stages of two-bladed full bladed gravity solar thermal turbine equipped with a heat retention device aimed at increasing acceleration power generation vertically downward.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + heavier substance Various energy conservation cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical blades with 2 types of vertical solar blade gravity solar heat turbines equipped with a heat retention device for accelerating power generation downward by accelerating vertically downward .   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air to be compressed to approach 1200 degrees + liquid containing alloy Two types of vertical bladed full blade gravity solar thermal turbine equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with indium vertically downward Up to 65 stages of two types of solar power turbines + Various kinds of energy storage to tilt and rotate a solar heater on water surface Cycle coalescing agency.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + include high temperature alloy Various types of energy to rotate the solar heater on the water surface with 66 stages of vertical rotor blade gravity solar heat turbine equipped with heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air to be compressed to approach 1200 degrees + liquid containing alloy Various types of vertical rotor blade gravity solar heat turbine equipped with a heat retention device aiming at increasing power generation by heating indium by compressed air acceleration and two types of solar power turbines of 67 types + Tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Heat absorbing material collected in a straight line + Heat retention increase ball rising device (2F) to use liquid indium containing alloy to rise and save + Long lens width increase heating Compress air to approach 1200 degrees + ratio critical substance A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 68 vertical stages of two-bladed full bladed gravity solar thermal turbines equipped with a heat retention device aimed at increasing acceleration power generation vertically downward.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + heavier substance A variety of energy storage cycle coalescing engines that aim at 1000 times the amount of power generation by installing in two stages of vertical rotor blade gravity solar heat turbines equipped with heat retention device by accelerating vertically downward to increase power generation amount.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air to be compressed to approach 1200 degrees + liquid containing alloy 70 vertical stages of two-bladed full bladed gravity solar thermal turbine equipped with a heat retention device for increasing power generation as accelerated rolling contact with indium vertically downward + Various energy preservation to tilt and rotate a solar heater on water surface Cycle coalescing agency.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air close to 1200 degrees + include high temperature alloy Various types of energy to rotate the solar heater on the water surface with 71 stages of vertical rotor blade gravity solar thermal turbine equipped with heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   A structure and method for accelerating liquid indium containing alloys by vertically providing 2 to 26 times gravity solar thermal power generation turbines with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar lens with long lenses Use heat-absorbing material to collect linearly + keep warm liquid lifter (2F) and use liquid indium containing alloy to rise and hold + long lens width increase heating air to be compressed to approach 1200 degrees + liquid containing alloy Incubate compressed air to accelerate air by heating air to increase power generation by installing 2 types of vertical bladed full blade gravity solar thermal turbine with 72 stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 73 types of 2 types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 74 stages of two types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 75-stage vertical solar full-wing gravity solar thermal turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 76 stages of two types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of a watercraft equipped with 77 types of vertical solar bladed turbines equipped with two types of vertical bladed full bladed solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle united engine that tilts and rotates a solar heater on the water surface equipped with 78 types of 2 types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle united engine that tilts and rotates a solar heater on the water surface, equipped with 79 types of 2 types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A full range of energy saving cycle united engines that tilt and rotate a solar heater on the water surface equipped with 80 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 81 types of 2 types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation Two types of full blade gravity solar thermal turbines provided in 82 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 83 types of 2 types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 84 stages of 2 types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 85 stages of 2 types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 86 stages of 2 types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 87 vertical stages of 2 types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 88 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 89 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 90 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 91 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 92 vertical stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 93 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 94 types of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 95 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 96 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with the heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 97 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with the heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 98 types of vertical solar blade turbines equipped with 2 types of vertical bladed full bladed solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of a watercraft equipped with two types of vertical all-rotor gravity solar heat turbines equipped with a heat retention device aiming at 99 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 100 types of vertical solar all-rotor gravity turbines equipped with a thermal insulation device that aims at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 101 types of vertical solar all-rotor gravity turbines equipped with a thermal insulator that aims at a +10.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 102 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate to increase the power generation ratio vertically for the critical substance vertically Two blade-type full bladed gravity solar thermal turbines equipped with 103 types of stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 stages of the cage type all blade gravity solar thermal turbine equipped with heat retention device in 104 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engine that tilts and rotates a solar heater on the surface of the water + provided with two types of vertical solar blade all-in-one gravity solar heat turbine equipped with a heat retention device provided in 105 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 106 stages of + + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation devices to increase acceleration power generation vertically downward and equipped with 2 types of vertical wing all types of gravity solar thermal turbines equipped with heat retention device.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power downward vertically to provide 2 types of vertical wing moving solar gravity turbines of 2 types in 109 stages + Various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 110 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a paddle-type full blade wings two kinds of gravity solar thermal turbine provided with 111 stages + Various kinds of tilting and rotating a solar heater on water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system that heats air by compressed air acceleration to increase power generation capacity Two vertical rotor blade gravity solar thermal turbines are provided in 112 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 114 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 115 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 116 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 117 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 118 stages of 2 types of vertical blade all type gravity solar heat turbine equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing all type gravity solar thermal turbine equipped with a heat retention device aiming at increasing power generation capacity to 119 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface by providing 120 vertical stages of 2 types of vertical wing moving blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact, equipped with a heat retention device aiming at increased power generation as two vertical wing rotors gravity solar heat turbine provided in one stage + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with two types of vertical type all moving blade gravity solar thermal turbines in three stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with four types of vertical solar blade with two types of vertical wing all type gravity solar thermal turbine equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 5 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with the heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with six types of vertical solar all-rotor gravity thermal turbines equipped with a thermal insulation device aiming at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 7 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downwards. Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical blade full blade gravity solar thermal turbines with 9 temperature stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, provided in 10 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 11 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 12 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system for accelerating the power vertically downward to provide 14 vertical stages of 2 types of vertical wing moving blade gravity solar thermal turbine + + Various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 15 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increased power generation as two vertical rotor blade gravity solar thermal turbines provided with 16 stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A full-rotor full bladed gravity solar thermal turbine equipped with a heat retention device for heating the air by compressed air acceleration of liquid indium to increase power generation Two 17 stages of two types of gravity solar thermal turbines + solar heater is tilt-rotated on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the surface of the water provided in 19 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 20 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by providing two types of turbines in 21 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 22 types of solar thermal turbines in 22 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 23 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with 24 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing moving solar gravity turbine equipped with a heat retention device aiming at increased power generation as acceleration rolling contact vertically downward Two types of 25 types of solar power turbines plus + Various kinds of energy storage cycles combined to rotate the sun heater on the water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward rolling and rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 26 stages of solar power turbines equipped with various types of energy storage cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical wing moving gravity solar heat turbine equipped with 27 stages + Various kinds of energy storage to tilt and rotate a solar heater on water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 28 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 30 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 31 stages of vertical solar blade with two types of vertical bladed full blade solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 32 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downward The heat sink equipped with two types of vertical wing moving solar thermal turbines in 33 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by using two heat sinks all blade floating gravity solar thermal turbine 34 types in two stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 35 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 36 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines, in which 37 types are provided + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 38 types of vertical type all blade gravity solar thermal turbine equipped with heat retention device aiming at acceleration power generation increase vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power generation vertically downward, and two types of vertical wing moving blade gravity solar thermal turbines are provided in 39 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy for rotating the solar heater on the water surface by providing 40 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a vertical-type full blade wing 2 types of solar power turbine provided with 41 stages of solar power turbine + various kinds of tilting and rotating on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system for heating air by compressed air acceleration to increase power generation capacity. Two vertical rotor blade gravity solar thermal turbines are provided in 42 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated electricity + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, which is provided in 44 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 45 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 46 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines are provided in 47 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 48 stages of 2 types of vertical wing all type gravity solar heat turbine equipped with a heat retention device for increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with two stages of vertical rotor blade gravity solar heat turbines in 49 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates the solar heater on the water surface equipped with 2 stages of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 51 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical wing moving gravity solar heat turbine equipped with 52 stages + Various kinds of energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 53 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 54 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 55 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 56 types of vertical solar blade with 2 types of vertical bladed full bladed solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 57 stages of two types of vertical wing all type wing gravity solar thermal turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the critical power vertically downward The heat sink with two heat sinks equipped with two types of thermal solar turbines in 58 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 59 thermal stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water, provided in 60 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 61 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 62 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various types of energy storage cycle combining engines equipped with 63 types of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increasing the amount of accelerated power generation vertically downward + tilt the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power generation downward vertically. Two types of vertical wing moving blade gravity solar thermal turbines are provided in 64 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Two vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Downwards + Various energy to tilt and rotate a solar heater on water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in vertical downward acceleration and rolling contact, equipped with heat retention device aiming at increase of power generation as vertical rolling contact. Two types of vertical rotor blade gravity solar thermal turbine provided with 66 stages + Various types of tilting and rotating a solar heater on water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A full-rotor full bladed gravity solar thermal turbine equipped with a heat retention system to heat the air by heating the air by compressed air acceleration of liquid indium and install two types of solar power turbines of two types in 67 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to get closer to 1200 degrees + Ratio critical substance vertically downward accelerating power generation aiming to increase power generation Two vertical blade full blade gravity solar thermal turbine with 68 types of thermal solar turbines + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 69 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 70 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 71 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 72 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 73 types of vertical bladed full blade gravity solar thermal turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with 74 types of two-bladed full bladed gravity solar thermal turbines + solar heater inclined on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates the solar heater on the water surface equipped with 2 stages of 75-stage vertical wing with all types of blade gravity solar thermal turbine equipped with heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 76 stages of various types of energy storage cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical bladed full blade gravity solar thermal turbines equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity 77 kinds of energy saving + various energy preservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 78 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward Two types of vertical full blade gravity solar thermal turbines equipped with 79 stages of + + Various kinds of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 80 stages of two types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 81 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 82 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to get close to 1200 degrees + increase the power generation rate for the critical substance vertically downward with two heat sinks equipped with thermal insulation system aiming at increasing power generation installed two stages of gravity solar thermal turbines in 83 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with 84 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 85 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 86 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various types of energy storage cycle combining engines equipped with 88 types of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increasing the amount of accelerated power generation vertically downward + tilt the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power downward vertically to provide 2 types of vertical wing moving blade gravity solar thermal turbines in 89 stages + Various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Two types of vertical bladed full blade gravity solar thermal turbine equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Downward + Various energy to tilt and rotate a solar heater on the water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar heat turbine provided with 91 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system for heating air by compressed air acceleration to increase the amount of power generation. Two vertical rotor blade gravity solar thermal turbines are provided in 92 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation aiming to increase power generation Two vertical blade all gravity wing solar thermal turbines with 93 kinds of thermal solar turbines + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water, provided at the 94th stage.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 95 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy Two types of turbines are provided in 96 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 97 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 98 types of vertical bladed full blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical wing all type gravity solar thermal turbine equipped with a heat retention device aiming at increasing the power generation capacity to 99 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical wing full blade gravity solar heat turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 101 stages of various types of energy saving cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + 102 various stages of energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 103 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 stages of 104 types of vertical type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 stages of 105 types of vertical solar bladed turbines equipped with thermal insulation system aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 106 vertical stages of all types of floating solar blade gravity turbines equipped with a thermal insulator to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 107 vertical stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the air for heating to approach 1200 degrees + Accelerate the amount of specific material vertically downward Increase the power generation aiming at increasing the amount of power generation Two wedge-shaped all-rotor gravity solar thermal turbines equipped with heat insulators are provided in 108 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 units of vertical wing all blade gravity solar thermal turbine with 109 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, which is provided in 110 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types The various energy storage cycle combined engine which tilts rotation on the water surface + sun light heater provided in 111 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 112 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance A variety of energy conservation cycle combined engines that rotate the solar heater on the water surface by tilting the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing the amount of power vertically downward Two vertical rotor blade gravity solar heat turbines of two types are provided in 114 stages + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the sun heater on the water surface by providing 115 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a vertical-type all-rotor gravity solar thermal turbine equipped with two kinds of 116 types of solar power turbine + Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A full-rotor full blade wing equipped with a heat retention system for heating the air by compressed air acceleration of liquid indium to increase power generation capacity Two types of vertical solar blade gravity solar thermal turbines are provided in 117 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerated power generation increase Intended to increase thermal power generation of 2 wing type all blade gravity solar thermal turbines 118 types with 2 types + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 119 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 120 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy Two types of turbines are provided in one stage + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines are provided in two stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with three types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with four types of vertical solar rotors with two types of gravity solar thermal turbines + tilting the sun heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertical energy reduction cycle equipped with a heat retention device aiming at increased power generation as accelerated rolling contact Two types of vertical wing moving solar gravity turbine provided with 5 stages + Various energy storage cycle combination to rotate the sun heater on the water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact, equipped with a heat retention device aiming at increased power generation as two vertical rotor blade gravity solar heat turbines provided in six stages + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 8 types of vertical type all moving blade gravity solar thermal turbines in 8 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 9 types of vertical type all blade gravity solar heat turbine equipped with 9 types.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 11 stages of vertical solar blade with 2 types of vertical bladed full blade solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 12 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to approach 1200 degrees + Accelerate the amount of specific material vertically downward Increase the power generation Aiming at increasing the amount of power generation Two wedge-shaped full bladed gravity solar thermal turbines equipped with thermal insulators in 13 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by installing two types of vertical wing moving solar thermal turbines equipped with heat retention device in 14 stages Energy conservation cycle united engine that aims to generate 1000 times   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the surface of the water provided in 15 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 16 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines, in which the type is provided in 17 stages + the sun light heater is inclined and rotated on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compressed air of width increase heating of the long lens + Accelerate the power generation rate to increase the specific power vertically downward by increasing the power of the critical material Up to 18 stages of two wing type all blade gravity solar thermal turbine equipped with a heat retention device + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compresses the extended lens heating air to a long lens and moves it closer to 1200 degrees + accelerates heavier materials vertically downward to increase power generation by 19 stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compress the air of the extended lens of the long lens and make it approach 1200 degrees + Liquid Indium containing the alloy is accelerated downward as vertical rolling accelerated rolling contact and equipped with a heat retention device aiming at increased power output 20 stages of + + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Longitudinal wing moving blade gravity solar thermal turbine 2 equipped with a heat retention device aiming to compress the air of the width increase heating of the long lens and make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated rolling contact to increase power generation A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 21 types of types.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compressing air of width increase heating of a long lens + Liquid indium containing alloy is compressed air acceleration to heat air by compressed air acceleration and equipped with a heat retention device aiming at increase of electric energy production A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface with 2 types provided in 22 stages.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compressed air of width increase heating of the long lens + Accelerated power generation capacity increase to increase the power generation ratio vertically downward of the critical material vertically Provided with 2 kinds of vertical wing moving solar gravitation solar thermal turbines in 23 stages + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Long-lens widening Compress the air for heating to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by 24 stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compress the air of the extended lens of the long lens and make it approach 1200 degrees + Liquid Indium containing the alloy is accelerated downward as vertical rolling accelerated rolling contact and equipped with a heat retention device aiming at increased power output There are 25 stages of + + energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Longitudinal wing moving blade gravity solar thermal turbine 2 equipped with a heat retention device aiming to compress the air of the width increase heating of the long lens and make it approach 1200 degrees + liquid indium containing high temperature alloy vertically downward accelerated rolling contact to increase power generation A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 26 types of types.   Configuration and method for vertically accelerating liquid indium containing 2 to 26 times gravity solar thermal power generation alloy with turbine blade cross section (4X) ++ Heat retention and increase use of liquid indium containing alloy in warmth increase device (2F) + Compressing air of width increase heating of a long lens + Liquid indium containing alloy is compressed air acceleration to heat air by compressed air acceleration and equipped with a heat retention device aiming at increase of electric energy production Two types of 27 stages are provided + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 28 stages of 2 types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 29 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 30 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 31 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 32 stages of vertical solar blade with 2 types of vertical solar blade, equipped with a thermal insulator to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A full range of energy saving cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 33 types of two types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All-rotating blade Gravity Two types of solar power turbines are provided in 34 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 35 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All-rotating-blade Gravity Two-type solar thermal turbine with 36 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All-rotating blade Gravity Two types of solar thermal turbines in 37 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 38 types of 2 types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 39 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 40 stages of two types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 41 stages of 2 types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 42 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 43 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 44 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of 45-stage vertical solar full-wing gravity solar thermal turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 46 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 47 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 48 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with the heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 49 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 50 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 51 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 52 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of 53 types of vertical solar all-rotor gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 54 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 55 stages of 2 types of vertical wing all solar blades gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 56 types of vertical solar blade with 2 types of vertical bladed full bladed solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 57 types of vertical solar all-rotor gravity turbines equipped with a thermal insulation device aiming at a.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 58 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 59 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 60 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 61 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 62 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compresses the air for increased heating to approach 1200 degrees + accelerates the specific power by increasing the amount of critical materials vertically Lowered with two heat sinks equipped with heat retaining devices aiming at increasing power generation with 63 stages of solar power turbines + solar heating Energy storage cycle combined engine that tilts and rotates the unit on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compress the air for increased heating to approach 1200 degrees + + Two vertical floating blade gravity solar thermal turbines equipped with thermal insulation to aim at increased power generation by accelerating heavier materials vertically downward + 64 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compress the air for increased heating to approach 1200 degrees + Accelerate the rolling capacity of liquid indium containing the alloy vertically downward as rolling contact with a heat retaining device to increase power generation aiming at 65 stages of 2 types of wing type all blade gravity solar thermal turbine + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens 66 stages of 2 wing type all blade gravity solar thermal turbine equipped with heat retention device aiming at power generation amount increase by compressing the air of increase heating to approach 1200 degrees + liquid indium containing high temperature alloy as vertical rolling down and accelerating rolling contact + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention increase ball rise device (2F) as far as possible + Heat retention increase ball rise device (2F) Lift and use liquid indium containing alloy + Width of long lens Compress the air for increased heating and bring it closer to 1200 ° + Liquid indium containing alloy Compress the air by compressed air Accelerating air by heating the air to aim at increase of power generation Various energy storage cycle combined engine which inclines and rotates + sun light heater provided on the stage on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various thermal energy storage cycle coalescing engines that are equipped with thermal insulation devices to increase the amount of accelerated power generation vertically downward and are equipped with two types of vertical blade all type gravity solar thermal turbine with 68 stages + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing power generation amount vertically Vertically moving blades Gravity-type solar thermal turbines 2 types are provided in 69 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface with 70 stages of vertical rotor blade gravity solar heat turbine equipped with heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 71 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A 72-stage vertical rotor blade gravity solar thermal turbine equipped with a heat retention device for heating the air with liquid indium by compressed air acceleration to increase power generation capacity + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface provided in 74 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types are provided in 75 stages + Various energy storage cycle combined engine which tilts and rotates a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy Various energy storage cycle combined engine which tilts and rotates a solar heater on the surface of the water by providing two types of turbines in 76 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 77 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 78 types of vertical wing all blade gravity solar heat turbine equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical wing all type gravity solar thermal turbine equipped with a heat retention device aiming at increasing power generation to 79 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 80 vertical stages of 2 types of vertical wing moving blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation with 81 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + 82 kinds of energy storage to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 83 types of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which is equipped with 84 vertical stages of 2 types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 85 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 86 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 87 vertical stages of 2 types of vertical wing all type gravity solar thermal turbines equipped with a heat retention device aiming to increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the critical power vertically downward The heat sink with two heat sinks equipped with two types of rotor blades gravity solar thermal turbines in 88 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 89 thermal stages of 2 wing type all blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 90 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 91 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages ++ Liquid containing alloy in heat retention increasing ball raising device (2F) Incubate and store indium + Compress lens of width increase heating of long lens to make it approach 1200 degrees + Accelerate ratio of specific substance vertically downward power generation Rotor type all blade gravity solar thermal turbine 2 equipped with heat retention device 93 kinds of types provided + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages ++ Liquid containing alloy in heat retention increasing ball raising device (2F) Incubate and store indium + compress the air of width increase heating of the long lens and make it approach 1200 degrees + accelerate the heavier substance vertically downward to increase power output by using a wing-shaped all blade with thermal insulator A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 94 stages + tilt and rotate a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages ++ Liquid containing alloy in heat retention increasing ball raising device (2F) Incubate and store indium + compress the air of width increase heating of the long lens and make it approach 1200 degrees + liquid aluminum containing alloy vertically downward accelerates the rolling contact all over the vertical type equipped with heat retention device aiming at increase of electric energy Two types of moving blade gravity solar thermal turbines provided in 95 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages ++ Liquid containing alloy in heat retention increasing ball raising device (2F) Vertical storage use of indium + compression of air for width increase heating of long lens to make it approach 1200 degrees + liquid crystal containing high temperature alloy vertically downward accelerated horizontal contact equipped with heat retention device aiming at power generation increase as rolling contact. All types of energy saving cycle combined engine which tilts and rotates a solar heater on the water surface equipped with 96 stages of 2 types of all blade gravity solar thermal turbines.   Structure and method for accelerating liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages ++ Liquid containing alloy in heat retention increasing ball raising device (2F) Incubate and store indium + compress the air of width increase heating of long lens and make it approach 1200 degrees + liquid indium containing alloy Hold compressed air to heat the air by air acceleration and aim to increase the amount of power generation. A total energy saving cycle united engine that tilts and rotates a solar heater on the water surface, equipped with 97 types of 2 types of full blade gravity solar thermal turbines.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation aiming to increase power generation capacity 2 types of rotor type all blade gravity solar thermal turbine with 98 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 99 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface with 2 types provided in 100 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 101 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 102 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing full blade gravity solar heat turbine 2 types equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with heat insulators to accelerate power generation and increase the amount of power generation, and are equipped with two types of vertical blade all types of gravity solar thermal turbines in 104 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on water surface equipped with 2 stages of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as two stages in 106 stages + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating the air by compressed air acceleration to increase power generation amount 107 kinds of energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 108 types of 2 types of vertical wing type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing type all blade gravity solar heat turbine equipped with 10 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 110 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of vertical solar bladed turbines equipped with thermal insulation system aiming at two stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 112 stages of vertical solar full-wing gravity solar thermal turbines equipped with thermal insulation system aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + Accelerate the amount of specific material vertically downward Increase the power generation aiming at increasing the amount of power generation Two wedge-shaped all-rotor gravity solar thermal turbines equipped with heat retention device installed 113 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 114 thermal stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 115 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 116 stages of + + various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 117 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 118 stages of vertical rotor blade gravity solar thermal turbines equipped with a thermal insulation device aiming at increasing the amount of accelerated power generation vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing the amount of power vertically downward Two vertical wing rotors with two types of gravity solar thermal turbines provided in 119 stages + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 120 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increasing power generation capacity Two types of vertical full blade gravity solar heat turbine provided in one stage + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A vertical-type full rotor blade gravity solar thermal turbine equipped with a heat retention system for heating the air by compressed air acceleration of liquid indium to increase power generation capacity Two types of solar power turbines with two types of stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the surface of the water + provided in four stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output A variety of energy storage cycle coalescing engines, in which two types are provided in five stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in six stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 7 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 8 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 9 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device that aims to increase power generation capacity by accelerating to 2 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface with 10 vertical stages of two-bladed full blade floating solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as two stages in 11 stages + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical bladed full blade gravity solar thermal turbines equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which has two types of vertical rotor blade gravity solar thermal turbines in 13 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 14 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 15 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aiming at 16 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 17 vertical stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation ratio vertically downwards for the critical material Vertically equipped with thermal insulation system aiming at increasing the amount of power generation Two 18-stage vertical solar blade turbines equipped with thermal solar turbine + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 stages of vertical wing moving blade gravity solar thermal turbines with 19 thermal stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, provided in 20 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 21 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engine that tilts and rotates a solar heater on the water surface with 22 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 23 types of vertical type all blade gravity solar thermal turbine equipped with heat retention device aiming at accelerating power generation increase vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate the power vertically downward to provide 24 vertical stages of 2 types of vertical solar blade gravity solar thermal turbines + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Two vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Two kinds of vertical solar blade gravity solar heat turbines are provided in 25 stages + Various energy to tilt and rotate a solar heater on the water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 26 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A full-rotor full bladed gravity solar thermal turbine equipped with a heat retention system for heating the air by compressed air acceleration of liquid indium to increase power generation capacity 27 kinds of solar power turbines equipped with 27 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase power generation aiming at 28 stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface provided in 29 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output 30 types of 2 types provided + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water by providing two stages of turbines in 31 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 32 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical blade all type gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Is driven vertically downward to drive a heat retaining mass turbine and heat retaining heat turbine + solar thermal augmentation heat sink equipped with a heat retaining device to tilt and rotate a suspension bridge on land. Various energy storage cycle combined engines that tilt and rotate the light heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of 35-stage vertical wing full blade gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 36 stages of various types of energy saving cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 37 stages + Various energy preservation to rotate the solar heater by tilting on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, which is provided with 38 vertical stages of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 39 types of vertical solar blade with full blade gravity solar heat turbine equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 40 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 41 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 42 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to get close to 1200 degrees + Accelerate the amount of specific material vertically downward Increase the power generation aiming at increasing the amount of power generation Two wedge-shaped all-rotor gravity solar thermal turbines equipped with heat retention device are provided in 43 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 stages of floating wing all blade wing gravity solar thermal turbine with 44 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 45 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 46 stages of + + various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 47 kinds of types + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 48 stages of 2 types of vertical wing all type gravity solar thermal turbine equipped with a heat retention device aiming at acceleration power generation increase vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing the amount of power generation vertically Vertically moving blades Gravity-type solar thermal turbines 2 types are provided in 49 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 50 stages of vertical solar full blade gravity solar heat turbine equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar heat turbine provided with 51 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A 52-stage vertical rotor blade gravity solar thermal turbine equipped with a heat retention device for heating the air with liquid indium heated by compressed air acceleration to increase power generation capacity + Tilt and rotate a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical material vertically downward accelerating power generation Increase the amount of power generation with two heat sinks with two thermal power turbines 2 types of solar power turbines with 53 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 54 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 55 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy 56 types of turbines are provided in 56 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines are provided in 57 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 58 stages of two types of vertical blade all type gravity solar heat turbine equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines, in which 59 types of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increasing power generation capacity are provided in +59 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertical energy-saving rolling contact equipped with thermal insulation device aiming at increased power generation as accelerated rolling contact Two types of vertical bladed full blade gravity solar heat turbine provided with 60 stages + Various energy preservation cycle combination to make a solar heater incline and rotate on water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward rolling and rolling contact, equipped with heat retention device aiming at increased power generation as two vertical stages of rotor blade gravity solar heat turbines provided in 61 stages + various energy storage cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical bladed full blade gravity solar thermal turbines equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 63 types of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 64 types of vertical solar blade with two types of vertical bladed full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with two stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aimed at 65 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 66 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 67 types of vertical type all moving blade gravity solar heat turbines equipped with thermal insulation device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downwards. Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by installing two vertical bladed full blade gravity solar thermal turbines with 69 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface provided in 70 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 71 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation device to increase acceleration power generation vertically downward and equipped with two types of vertical blade all type gravity solar thermal turbine equipped with heat retention device.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing the amount of power generation vertically downwards. Two types of vertical wing moving blade gravity solar thermal turbines are provided in 74 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing two stages of vertical rotor blade gravity solar heat turbine equipped with heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 76 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system that heats the air by compressed air acceleration to increase the power generation capacity. Two vertical rotor blade gravity solar thermal turbines are provided in 77 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation Increase the power generation unit for thermal power plant 2 types of blade all blade gravity solar thermal turbine 78 types + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 79 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 80 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engines in which two types of turbines are provided in 81 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two kinds of solar thermal turbines provided in 82 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 83 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 84 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device that aims to increase power generation capacity by accelerating to two stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates the solar heater on the water surface with 85 vertical stages of two vertical blade all types of gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 86 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical bladed full blade gravity solar thermal turbines equipped with a heat retention device for heating air by compressed air acceleration to increase power generation amount 87 kinds of energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 88 types of 2 types of vertical wing type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 89 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 90 stages of two types of vertical all-rotor gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 91 types of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 92 vertical stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get close to 1200 degrees + specific critical substance accelerated downward in the vertical direction Accelerated power generation Increase the power generation device Two thermal floating turbines equipped with 2 types of thermal solar turbines in 93 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 94 2 stages of 2 wing type all blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 95 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types There are 96 stages of + + energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 97 kinds of types + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation device to increase acceleration power generation vertically downward and equipped with 2 types of vertical wing all solar blades gravity solar thermal turbine with 2 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system for accelerating the power vertically downward to increase the amount of power generation. Two types of vertical wing moving blade gravity solar thermal turbines are provided in 99 stages + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 100 stages of vertical wing full blade gravity solar heat turbine equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar heat turbine provided with 101 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A 102-stage vertical rotor blade gravity solar thermal turbine equipped with a heat retention device for heating the air by heating liquid indium with compressed air acceleration to increase the power generation capacity + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of long lens Close to 1200 degrees + Ratio specific substance accelerated downward to vertically downward power generation power generation unit aiming at increasing power generation capacity 2 types of rotor type all blade gravitational solar heat turbines 103 types in 103 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in the 104th stage.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 105 stages are provided + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 106 stages + sun light heaters are inclined on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines are provided in 107 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 108 stages of 2 types of vertical blade all type gravity solar heat turbine equipped with a heat retention device for increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing all types of gravity gravity solar thermal turbine equipped with a heat retention device that aims to increase power generation capacity by acceleration.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface by providing 110 vertical stages of two-bladed full blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as two stages in 111 stages + various energy storage cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation amount + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 113 stages of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 114 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 115 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 116 stages of vertical solar all-rotor gravity thermal turbines equipped with thermal insulation system aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 117 vertical stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get close to 1200 degrees + specific critical substance vertically downward accelerating power generation equipped with thermal insulation device aiming at increasing the power generation 2 2 types of vertical blade all types of gravity solar thermal turbine provided in 118 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation with 2 heatwells with all thermal wing blade gravity solar thermal turbines 119 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 120 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types The various energy storage cycle combined engine which tilts rotation on the surface of the water + solar light heater provided in one stage.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engine that tilts and rotates the sun heater on the surface of the water.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation device aiming at increasing the amount of accelerated power generation vertically downward and equipped with two types of vertical wing all solar blades gravity solar thermal turbine with three stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention device to accelerate power generation downward vertically. Two types of vertical wing moving blade gravity solar thermal turbines are provided in four stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy for rotating the solar heater on the water surface by providing 5 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increase of the power generation capacity Two types of vertical rotor blade gravity solar heat turbine provided with six stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system for heating air by compressed air acceleration to increase power generation capacity. Two vertical rotor blade gravity solar thermal turbines are provided in seven stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase power generation Aiming to increase the power generation capacity 2 types of vertical blade all blade wing gravity solar thermal turbine with 8 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water, provided in 9 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 10 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of turbines provided in 11 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 12 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 13 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 14 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device that aims to increase power generation capacity by accelerating to two stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical full blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward and two kinds of solar power turbines are provided in 15 stages + Various energy conservation cycle combination to tilt and rotate a solar heater on water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as two stages in 16 stages + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar heat turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 18 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of vertical type all blade gravity solar heat turbine equipped with 19 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 20 stages of 2 types of vertical type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 21 stages of 2 types of vertical solar all-rotor gravity thermal turbines equipped with a heat retention device to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 22 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downwards. Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation with 24 thermal stages of floating wing full blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 25 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 26 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 28 stages of two types of vertical blade all type gravity solar thermal turbine equipped with a heat retention device for increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device that aims to increase power generation capacity by accelerating to two stages.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface with 30 vertical stages of two-bladed full blade floating solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 31 stages of various types of energy saving cycles to tilt and rotate a solar heater on water surface Coalition agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Equipped with thermal insulation device for heating the air by compressed air acceleration to increase power generation capacity 32 types of vertical wing moving wing gravity solar heat turbine equipped with various stages + Various energy preservation to tilt and rotate the solar heater on the water surface Cycle coalescing agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical blade all type gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device to accelerate power generation and increase power generation capacity.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of 35-stage vertical wing full blade gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 36 stages of various types of energy saving cycles to tilt and rotate a solar heater on water surface Coalition agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 37 stages + Various energy preservation to rotate the solar heater by tilting on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All types of energy saving cycle combining engines that tilt and rotate a solar heater on the water surface equipped with 38 types of 2 types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 39 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 40 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 41 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 42 stages of 2 types of vertical solar all-rotor gravity solar thermal turbine equipped with a heat retention device that aims at   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 43 stages of 2 types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All-rotating-blade gravity solar thermal turbine Two types are provided in 44 stages + Various energy conservation cycle combined engine which inclines and rotates a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All-rotating-blade gravity solar thermal turbine Two types are provided in 45 stages + Various energy conservation cycle combined engine which inclines and rotates a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 46 types of 2 types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 47 types of 2 types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 48 stages of 2 types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 49 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 50 stages of two types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 52 stages of 2 types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 52 stages of 2 types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 53 types of 2 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 54 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 55 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 56 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 57 types of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 58 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with the heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of 59 types of vertical solar full-wing gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 60 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 61 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 62 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 63 types of vertical solar blade turbines with two types of vertical blade type all-in-one gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 64 stages of vertical solar blade with two types of vertical bladed full blade solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines equipped with thermal insulation device aiming at 65 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 66 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 67 types of vertical solar bladed turbines equipped with 2 types of vertical blade type all-over blade gravity solar thermal turbine equipped with a heat retention device that aims at   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 68 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 69 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output 70 types of solar thermal turbines + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 71 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 72 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + specific material accelerates vertically downward to increase the amount of power generation Equipped with thermal insulation system aiming at increasing the amount of power generation Two vertical blade full gravity solar thermal turbines equipped with 73 stages + Solar heater on the water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Is compressed to approach 1200 degrees + Heavier-type all-rotor gravity solar thermal turbine with two types of thermal solar turbines equipped with a heat retention device aiming at increasing power generation by accelerating heavier materials vertically downward + solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling and rolling contact with heat retention device aiming at increase of electric power generation equipped with 2 kinds of vertical wing moving solar gravity turbines in 75 stages + solar Various energy storage cycle combined engines that tilt and rotate the light heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid Indium containing high-temperature alloy is accelerated downward as accelerated rolling contact with vertically moving liquid indium and equipped with heat retention device aiming at increase of electric power output Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air近 近 1200 度 度 イ ン ジ ウ ム イ ン ジ ウ ム Liquid indium containing alloy イ ン ジ ウ ム イ ン ジ ウ ム イ ン ジ ウ ム イ ン ジ ウ ム イ ン ジ ウ ム 竪 保温 保温 竪 動 77 77 77 77 77 77 77 77 77 77 + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation device aiming at increasing the amount of accelerated power generation vertically downward and equipped with 2 types of vertical wing all solar blades gravity solar thermal turbine in 78 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention device to accelerate the power generation downward by two vertical bladed gravity solar thermal turbines equipped with 79 types of stages + Various energy storage cycle combination to rotate the solar heater on the water surface by tilting rotation organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the sun heater on the water surface with 80 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a vertical-type all rotor blade gravity solar heat turbine 2 kinds provided with 81 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system for heating air by compressed air acceleration to increase power generation capacity Two vertical rotor blade gravity solar thermal turbines are provided in 82 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation Increase the amount of power generation with a heat retaining device aiming at increasing the amount of power production + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, provided in 84 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 85 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 86 turbines provided with 2 types of turbines.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 87 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 88 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines, in which two types of vertical wing all gravity-foiling solar thermal turbines equipped with a heat retention device aiming at increasing power generation capacity, are provided in 89 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface by providing 90 vertical stages of two types of vertical wing moving blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 91 stages of various types of energy saving cycles for tilting and rotating a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity 92 kinds of + + solar heater is made to tilt and rotate on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 93 types of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 94 types of vertical type all moving blades gravity solar thermal turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 95 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 96-stage vertical rotor blade gravity solar thermal turbine equipped with a heat retention device aiming at   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of vertical wing all type wing gravity solar thermal turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + specific critical substance vertically downward accelerating power generation equipped with thermal insulation device aiming at increasing the power generation capacity Two types of vertical blade all type gravity solar thermal turbine provided 98 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by increasing the amount of power generated by 2 types of rotor blade gravity solar thermal turbines with 99 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, which is provided in 100 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 101 stages provided + Various energy storage cycle united engines that tilt and rotate a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water, with 102 stages of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various types of energy storage cycle combining engines equipped with heat insulators to increase the amount of accelerated power generation vertically downward and equipped with 2 types of vertical wing all types of gravity solar heat turbines equipped with thermal insulation devices + tilt the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power generation downward vertically, and two types of vertical wing moving blade gravity solar heat turbines are provided in 104 stages + Various energy storage cycle combination to rotate the solar heater on the water surface by tilting organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the sun heater on the water surface by providing 105 stages of vertical rotor blade gravity solar thermal turbines equipped with heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a vertical-type full blade wings 2 types of solar power turbine provided with 106 stages + various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A vertical-type full rotor blade gravity solar thermal turbine equipped with a heat retention device for heating the air by compressed air acceleration of liquid indium to increase the power generation capacity 107 kinds of solar power turbines are provided in 107 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation Increase the power generation device for thermal power plant 2 types of blade all blade gravity solar heat turbine 108 types in 108 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 109 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with two types of 110 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines in which two types of turbines are provided in 111 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 112 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 113 stages of 2 types of vertical blade all type gravity solar thermal turbine equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical blades with 2 types of vertical solar blade gravity solar heat turbines equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 116 stages of solar power turbines equipped with various types of energy storage cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation amount + 117 various stages of energy rotation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 118 stages of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 119 types of vertical solar blade with full blade gravity solar heat turbine equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 120 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of vertical solar blade all-in-one gravity turbines equipped with a heat retention device for aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with two types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downwards. Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation with a thermal insulation system to increase the power generation capacity 2 types of rotor blade gravity solar thermal turbines in 4 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the water surface, which is provided in 5 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 6 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 8 types of vertical type all blade gravity solar thermal turbine equipped with heat retention device aiming at acceleration power generation increase vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention device to accelerate power generation downward vertically. Two vertical blade full-type gravity solar thermal turbines are provided in nine stages + Various energy storage cycle combinations that rotate the solar heater on the water surface by tilting. organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy for rotating the solar heater on the water surface by providing 10 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increasing power generation capacity Two types of vertical rotor blade gravity solar heat turbine provided with 11 stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system that heats air by compressed air acceleration to increase power generation capacity. Two vertical rotor blade gravity solar thermal turbines are provided in 12 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 14 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 15 stages of + + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 16 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 17 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 18 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with two stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface with 20 vertical stages of two-bladed full blade floating solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 21 stages of various types of energy saving cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical bladed full blade gravity solar thermal turbines equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various kinds of energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 23 stages of 2 types of vertical type total blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 24 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 25 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with the heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 26 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 27 stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to make it approach 1200 degrees + Accelerate the amount of specific material vertically downwards Increase the power generation aiming at increasing the amount of power generation Two 28-stage vertical wing rotory gravity solar thermal turbines equipped with thermal insulation equipment + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substance vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with 29 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, which is provided in 30 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 31 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with thermal insulation devices aiming at increasing the amount of accelerated power generation vertically downward and equipped with two types of vertical wing all types of gravity solar thermal turbines equipped with thermal insulation.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power downward vertically to provide 34 vertical stages of 2 types of vertical solar blade gravity solar thermal turbines + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Vertically moving liquid indium in vertical downward accelerated rolling contact and equipped with a heat retention device aiming at increasing power generation capacity Two types of vertical bladed full blade gravity solar heat turbine provided with 35 stages + Various energy to tilt and rotate a solar heater on the water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increased power generation as a vertical blade with two blades 36 types of solar power turbines equipped with solar power + tilt various kinds of sun light heater on water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system for heating air by compressed air acceleration to increase power generation capacity. Two vertical rotor blade gravity solar thermal turbines are provided in 37 stages + Sunlight heater is tilt-rotated on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation aiming to increase power generation 38 2 stages vertical wing all blade wing gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 39 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 40 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 41 stages + sun light heaters are inclined on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 42 stages + a solar heater is inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 43 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with 44 stages of two types of vertical blade all types of gravity solar thermal turbine + rotating the sun heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertical energy-saving rolling contact equipped with a heat retention device aiming at increased power generation as accelerated rolling contact Two types of vertical wing moving blade gravity solar heat turbine provided with 45 stages + Various energy preservation cycle combination to rotate the solar heater on the water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 46 stages of various types of energy saving cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical wing moving gravity solar heat turbines equipped with 47 stages + Various kinds of energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 48 stages of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 49 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 50 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 51 types of vertical solar blade turbines equipped with 2 types of vertical solar blade all-in-one gravity turbines equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 52 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate of the critical substance vertically downward Increase the power generation device Set up 2 types of vertical wing moving solar gravitation solar thermal turbines in 53 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation by 54 2 stages of 2 wing type all blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 55 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 56 stages of + + various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines, in which 57 types are provided + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various thermal energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with thermal expansion devices equipped with thermal insulation to increase the amount of accelerated power generation vertically downward and equipped with two types of vertical solar blade with two types of gravity solar thermal turbines.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing the amount of power generation vertically Vertically moving blades Gravity-type solar thermal turbines equipped with two types of 59 stages + Various energy storage cycle combinations that rotate the solar heater on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy for rotating the solar heater on the water surface by providing 60 stages of vertical rotor blade gravity solar heat turbine equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a vertical-type full blade wing 2 types of solar power turbine provided with 61 stages of solar power turbines Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system that heats air by compressed air acceleration to increase power generation capacity Two vertical rotor blade gravity solar heat turbines are provided in 62 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface with 64 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 65 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, with two types of turbines provided in 66 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 67 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 68 types of vertical type all blade gravity solar heat turbine equipped with heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with two types of vertical rotor blade gravity solar thermal turbines in 69 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface by providing 70 vertical stages of two vertical bladed full blade solar thermal turbines equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward. organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 71 stages of solar power turbines + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 72 stages + Various energy preservation to rotate the solar heater by tilting on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 73 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 74 types of 2 types of vertical wing type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of 75-stage vertical solar full-blade gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle coalescing engine that tilts and rotates a solar heater on the surface of the water, which is equipped with 76 types of vertical solar blade turbines with two types of vertical bladed full blade solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 77 types of floating solar blade gravity solar thermal turbines equipped with two types of vertical wing all gravity wing solar thermal turbine equipped with a heat retention device aimed at increasing   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downwards. Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation by increasing the amount of power generated by two vertical blade all gravity solar thermal turbines with 79 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 80 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 81 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 82 stages of types + Various energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various types of energy storage cycle combining engines equipped with 83 types of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increasing the amount of accelerated power generation vertically downward + tilt the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing power generation amount vertically Vertically mounted moving blade gravity solar heat turbine 2 types in 84 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the sun heater on the water surface with 85 stages of vertical rotor blade gravity solar thermal turbine equipped with thermal insulation device aiming at increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increased power generation as two vertical rotor blade gravity solar heat turbine provided with 86 stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Inflates a full-rotor full blade gravity solar thermal turbine equipped with a heat retention device aiming at increasing power generation by heating liquid indium with compressed air acceleration to increase power generation Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface provided in 89 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 90 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy Two types of turbines provided in 91 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 92 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 93 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with two stages of 94-stage vertical rotor blade gravity solar thermal turbine equipped with a heat retention device that aims to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation with 96 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating the air by compressed air acceleration to increase power generation capacity 97 kinds of + various kinds of energy preservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 98 types of vertical type all blade gravity solar thermal turbines provided in 98 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing type all blade gravity solar heat turbine equipped with 99 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 100 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 101 types of vertical solar all-rotor gravity turbines equipped with a thermal insulator that aims at a +10.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 102 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate to increase the power generation ratio vertically for the critical substance vertically Two blade-type full bladed gravity solar thermal turbines equipped with 103 types of stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 stages of the cage type all blade gravity solar thermal turbine equipped with heat retention device in 104 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 105 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 106 stages of + + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation devices to increase acceleration power generation vertically downward and equipped with 2 types of vertical wing all types of gravity solar thermal turbines equipped with heat retention device.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power downward vertically to provide 2 types of vertical wing moving solar gravity turbines of 2 types in 109 stages + Various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 110 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a paddle-type full blade wings two kinds of gravity solar thermal turbine provided with 111 stages + Various kinds of tilting and rotating a solar heater on water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system that heats air by compressed air acceleration to increase power generation capacity Two vertical rotor blade gravity solar thermal turbines are provided in 112 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 114 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 115 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 116 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 117 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 118 stages of 2 types of vertical blade all type gravity solar heat turbine equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing all type gravity solar thermal turbine equipped with a heat retention device aiming at increasing power generation capacity to 119 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface by providing 120 vertical stages of 2 types of vertical wing moving blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact, equipped with a heat retention device aiming at increased power generation as two vertical wing rotors gravity solar heat turbine provided in one stage + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with two types of vertical type all moving blade gravity solar thermal turbines in three stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with four types of vertical solar blade with two types of vertical wing all type gravity solar thermal turbine equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 5 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with the heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with six types of vertical solar all-rotor gravity thermal turbines equipped with a thermal insulation device aiming at the.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 7 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downwards. Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical blade full blade gravity solar thermal turbines with 9 temperature stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, provided in 10 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 11 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 12 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that rotate the solar heater on the water surface by tilting the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system for accelerating the power vertically downward to provide 14 vertical stages of 2 types of vertical wing moving blade gravity solar thermal turbine + + Various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 15 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increased power generation as two vertical rotor blade gravity solar thermal turbines provided with 16 stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A full-rotor full bladed gravity solar thermal turbine equipped with a heat retention device for heating the air by compressed air acceleration of liquid indium to increase power generation Two 17 stages of two types of gravity solar thermal turbines + solar heater is tilt-rotated on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the surface of the water provided in 19 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 20 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water by providing two types of turbines in 21 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 22 types of solar thermal turbines in 22 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 23 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with 24 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing moving solar gravity turbine equipped with a heat retention device aiming at increased power generation as acceleration rolling contact vertically downward Two types of 25 types of solar power turbines plus + Various kinds of energy storage cycles combined to rotate the sun heater on the water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward rolling and rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 26 stages of solar power turbines equipped with various types of energy storage cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical wing moving gravity solar heat turbine equipped with 27 stages + Various kinds of energy storage to tilt and rotate a solar heater on water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 28 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 30 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 31 stages of vertical solar blade with two types of vertical bladed full blade solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 32 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downward The heat sink equipped with two types of vertical wing moving solar thermal turbines in 33 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by using two heat sinks all blade floating gravity solar thermal turbine 34 types in two stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 35 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 36 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines, in which 37 types are provided + tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 38 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with two stages of vertical rotor blade gravity solar heat turbines in 39 stages + inclined rotation of a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates the solar heater on the water surface equipped with 40 stages of vertical solar full-wing gravity solar thermal turbine equipped with thermal insulation device aiming at increased power generation as acceleration rolling contact vertically downward organ.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 41 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating the air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 43 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with 44 stages of two types of vertical blade all types of gravity solar thermal turbine + rotating the sun heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Vertical energy-saving rolling contact equipped with a heat retention device aiming at increased power generation as accelerated rolling contact Two types of vertical wing moving blade gravity solar heat turbine provided with 45 stages + Various energy preservation cycle combination to rotate the solar heater on the water surface organ.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 46 stages of various types of energy saving cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical wing moving gravity solar heat turbines equipped with 47 stages + Various kinds of energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle united engine that tilts and rotates a solar heater on the water surface with 48 types of 2 types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 49 stages of 2 types of vertical wing type all moving blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 50 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 51 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 52 stages of 2 types of vertical solar all-rotor gravity solar thermal turbine equipped with a heat retention device to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 53 types of 2 types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All-rotating-blade Gravity Two-stage solar thermal turbines in 54 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 55 types of two types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 56 types of 2 types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 57 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 58 stages of two types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 59 stages of 2 types of vertical full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 60 stages of two types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 61 stages of 2 types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 62 stages of 2 types of vertical type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 63 types of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 64 stages of two types of vertical-type full blade gravity solar thermal turbines equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of 65-stage vertical solar full-wing gravity solar thermal turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 66 vertical stages of two types of vertical all-rotor gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device in 67 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 68 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with the heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of vertical solar full-blade gravity solar heat turbines equipped with a heat retention device aimed at 69 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 stages of two types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 71 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 72 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 73 types of vertical solar all-rotor gravity turbines equipped with 2 types of vertical bladed all-rotor gravity solar heat turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 74 types of vertical solar all-rotor gravity turbines equipped with 2 types of vertical blade all solar blades equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 75-stage vertical solar full-wing gravity turbines equipped with a heat retention device to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle coalescing engine that tilts and rotates a solar heater on the surface of the water, which is equipped with 76 types of vertical solar blade turbines with two types of vertical bladed full blade solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the surface of a watercraft equipped with 77 types of vertical solar bladed turbines equipped with two types of vertical bladed full bladed solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 78 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 79 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 80 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 81 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two kinds of solar thermal turbines provided in 82 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + specific material accelerates vertically downward to increase the amount of power generation Equipped with heat retention device aiming at increasing the amount of power generation Two vertical blade full gravity solar heat turbines provided with 83 stages + solar heater on the water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Accelerates heavier materials vertically downward to increase power generation With two heat sinks equipped with thermal insulators and two stages of gravity solar thermal turbines in 84 stages + Solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with the heat retention device aiming at increased power generation as two stages of vertical wing moving blade gravity solar thermal turbine provided with 85 stages + solar Various energy storage cycle combined engines that tilt and rotate the light heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Is compressed to approach 1200 degrees + Liquid Indium containing high-temperature alloy is accelerated downward as accelerated rolling contact with vertically moving liquid indium and equipped with a thermal insulator to aim at increased power generation with two types of floating solar blade gravity solar heat turbines provided in 86 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air近 近 1200 度 度 イ ン ジ ウ ム Liquid indium containing alloy 圧 縮 イ ン ジ ウ ム イ ン ジ ウ ム イ ン ジ ウ ム 竪 イ ン ジ ウ ム 保温 竪 竪 動 87 87 87 87 87 87 87 87 87 + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various types of energy storage cycle combining engines equipped with 88 types of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increasing the amount of accelerated power generation vertically downward + tilt the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power downward vertically to provide 2 types of vertical wing moving blade gravity solar thermal turbines in 89 stages + Various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Two types of vertical bladed full blade gravity solar thermal turbine equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Downward + Various energy to tilt and rotate a solar heater on the water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar heat turbine provided with 91 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system for heating air by compressed air acceleration to increase the amount of power generation. Two vertical rotor blade gravity solar thermal turbines are provided in 92 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation aiming to increase power generation Two vertical blade all gravity wing solar thermal turbines with 93 kinds of thermal solar turbines + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water, provided at the 94th stage.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 95 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy Two types of turbines are provided in 96 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 97 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 98 types of vertical bladed full blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical wing all type gravity solar thermal turbine equipped with a heat retention device aiming at increasing the power generation capacity to 99 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical wing full blade gravity solar heat turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 101 stages of various types of energy saving cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + 102 various stages of energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 103 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 stages of 104 types of vertical type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 stages of 105 types of vertical solar bladed turbines equipped with thermal insulation system aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 106 vertical stages of all types of floating solar blade gravity turbines equipped with a thermal insulator to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 107 vertical stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the air for heating to approach 1200 degrees + Accelerate the amount of specific material vertically downward Increase the power generation aiming at increasing the amount of power generation Two wedge-shaped all-rotor gravity solar thermal turbines equipped with heat insulators are provided in 108 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 units of vertical wing all blade gravity solar thermal turbine with 109 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface, which is provided in 110 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types The various energy storage cycle combined engine which tilts rotation on the water surface + sun light heater provided in 111 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 112 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance A variety of energy conservation cycle combined engines that rotate the solar heater on the water surface by tilting the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing the amount of power vertically downward Two vertical rotor blade gravity solar heat turbines of two types are provided in 114 stages + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the sun heater on the water surface by providing 115 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a vertical-type all-rotor gravity solar thermal turbine equipped with two kinds of 116 types of solar power turbine + Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A full-rotor full blade wing equipped with a heat retention system for heating the air by compressed air acceleration of liquid indium to increase power generation capacity Two types of vertical solar blade gravity solar thermal turbines are provided in 117 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerated power generation increase Intended to increase thermal power generation of 2 wing type all blade gravity solar thermal turbines 118 types with 2 types + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 119 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 120 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy Two types of turbines are provided in one stage + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines are provided in two stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with three types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with four types of vertical solar rotors with two types of gravity solar thermal turbines + tilting the sun heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Vertical energy reduction cycle equipped with a heat retention device aiming at increased power generation as accelerated rolling contact Two types of vertical wing moving solar gravity turbine provided with 5 stages + Various energy storage cycle combination to rotate the sun heater on the water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact, equipped with a heat retention device aiming at increased power generation as two vertical rotor blade gravity solar heat turbines provided in six stages + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 8 types of vertical type all moving blade gravity solar thermal turbines in 8 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 9 types of vertical type all blade gravity solar heat turbine equipped with 9 types.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 10 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 11 stages of vertical solar blade with 2 types of vertical bladed full blade solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 12 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to approach 1200 degrees + Accelerate the amount of specific material vertically downward Increase the power generation Aiming at increasing the amount of power generation Two wedge-shaped full bladed gravity solar thermal turbines equipped with thermal insulators in 13 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 14 thermal stages of two wing type all blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the surface of the water provided in 15 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 16 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines, in which the type is provided in 17 stages + the sun light heater is inclined and rotated on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with 18 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device aimed at increasing acceleration power generation amount vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power generation downward vertically, and two types of vertical wing moving blade gravity solar thermal turbines are provided in 19 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy for rotating the solar heater on the water surface with 20 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward, equipped with heat retention device aiming at increase of power generation as a vertical-type full blade wings 2 types of solar power turbine provided with 21 stages + various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A 22-stage vertical rotor blade gravity solar thermal turbine equipped with a heat retention device that aims to increase power generation by heating liquid air by compressed air acceleration of liquid indium + Tilts and rotates a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface provided in 24 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 25 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy 26 types of turbines are provided in 26 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 27 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 28 stages of two types of vertical blade all type gravity solar thermal turbine equipped with a heat retention device for increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device that aims to increase power generation capacity by accelerating to two stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface with 30 vertical stages of two-bladed full blade floating solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 31 stages of various types of energy saving cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation device for heating the air by compressed air acceleration to increase power generation capacity 32 types of vertical wing moving wing gravity solar heat turbine equipped with various stages + Various energy preservation to tilt and rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 33 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 34 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 35 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 36 types of vertical solar blade with 2 types of vertical bladed full bladed solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 37 vertical stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get close to 1200 degrees + specific critical substance vertically downward accelerating power generation equipped with thermal insulation device aiming at increasing the amount of power generation installed two types of all blade wing gravity solar thermal turbine in 38 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 39 thermal stages of 2 wing type all blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, which is provided in 40 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 41 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 42 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 43 stages of vertical rotor blade gravity solar heat turbines equipped with a thermal insulation device aiming at increasing acceleration power generation vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power downward vertically to provide 44 stages of 2 types of vertical wing moving blade gravity solar thermal turbine + various energy storage cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Vertically moving liquid indium in vertical downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation capacity Two types of solar power turbine provided with 45 stages + Various kinds of energy to rotate the sun heater on the water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with 2 to 26 times the turbine blade cross section (4X) + heat and cold energy utilization + solar long lens Gather light in a straight line to heat absorbing material + Use warm liquid crystal lifter (2F) to raise and store liquid indium containing alloy + Width of long lens compresses air to increase temperature near 1200 degrees + high temperature alloy Liquid-indium includes vertically-downward accelerated rolling contact with liquid indium to drive the heat-generating mass turbine and heat-generating heat turbine of power generation + Various energy storage cycle combined engines that tilt rotation of the solar thermal augmentation suspension bridge on land.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system for heating air by compressed air acceleration to increase power generation capacity. Two vertical rotor blade gravity solar thermal turbines are provided in 47 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Ratio critical material vertically downward accelerating power generation aiming to increase power generation 2 vertical blade all gravity wing solar thermal turbine with 48 kinds of thermal solar turbines + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 49 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 50 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which has 2 types of turbines and 51 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water with 52 types of solar thermal turbines.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 52 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 54 stages of vertical rotor blade gravity solar thermal turbines equipped with thermal insulation devices that aim at increasing power generation capacity by accelerating them.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing moving solar gravity turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward equipped with 55 types of two types of solar power turbines + Various energy conservation cycle combination to rotate the sun heater on the water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 56 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical wing moving solar gravity turbines equipped with thermal expansion devices equipped with 57 stages + Various energy preservation to rotate the solar heater by tilting on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward Various types of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 58 stages of two types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 59 types of vertical type all moving blades gravity solar thermal turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 60 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 61 types of vertical solar bladed turbines equipped with 2 types of vertical bladed full blade gravity solar heat turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 62 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to get closer to 1200 ° + Accelerate the amount of specific material vertically downward Increase the power generation aiming at increasing the amount of power generation Equipped with two types of vertical wing moving solar thermal turbines in 63 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 64 units of 2 wing type all blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water provided at the 65th stage.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 66 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various thermal energy storage cycle coalescing engines that are equipped with thermal insulation devices to increase the amount of accelerated power generation vertically downward and are equipped with two types of vertical blade all type gravity solar thermal turbine with 68 stages + tilt rotation of the solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing power generation amount vertically Vertically moving blades Gravity-type solar thermal turbines 2 types are provided in 69 stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface with 70 stages of vertical rotor blade gravity solar heat turbine equipped with heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 71 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A 72-stage vertical rotor blade gravity solar thermal turbine equipped with a heat retention device for heating the air with liquid indium by compressed air acceleration to increase power generation capacity + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface provided in 74 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types are provided in 75 stages + Various energy storage cycle combined engine which tilts and rotates a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy Various energy storage cycle combined engine which tilts and rotates a solar heater on the surface of the water by providing two types of turbines in 76 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 77 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 78 types of vertical wing all blade gravity solar heat turbine equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical wing all type gravity solar thermal turbine equipped with a heat retention device aiming at increasing power generation to 79 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 80 vertical stages of 2 types of vertical wing moving blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation with 81 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + 82 kinds of energy storage to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 83 types of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which is equipped with 84 vertical stages of 2 types of vertical bladed full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 85 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 86 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 87 vertical stages of 2 types of vertical wing all type gravity solar thermal turbines equipped with a heat retention device aiming to increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the critical power vertically downward The heat sink with two heat sinks equipped with two types of rotor blades gravity solar thermal turbines in 88 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 89 thermal stages of 2 wing type all blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 90 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 91 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various types of energy storage cycle combining engines equipped with 93 types of vertical solar all-rotor gravity solar thermal turbines equipped with a heat retention device aiming at increasing the amount of accelerated power generation vertically downward + tilt the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing the power generation amount vertically Vertically installed moving wing gravity solar heat turbine 2 types of 94 kinds of + + various kinds of energy preservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Two types of vertical bladed full blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Downwards + Various energy to tilt and rotate a solar heater on the water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical rotor blade gravity solar heat turbine provided with 96 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system to heat the air by compressed air acceleration to increase the power generation capacity. Two vertical rotor blade gravity solar thermal turbines are provided in 97 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation aiming to increase power generation capacity 2 types of rotor type all blade gravity solar thermal turbine with 98 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator Various energy storage cycle combined engines that tilt and rotate the sun heater on the water surface provided in 99 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface with 2 types provided in 100 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 101 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 102 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing full blade gravity solar heat turbine 2 types equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with heat insulators to accelerate power generation and increase the amount of power generation, and are equipped with two types of vertical blade all types of gravity solar thermal turbines in 104 stages + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on water surface equipped with 2 stages of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as two stages in 106 stages + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating the air by compressed air acceleration to increase power generation amount 107 kinds of energy conservation to rotate the solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 108 types of 2 types of vertical wing type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing type all blade gravity solar heat turbine equipped with 10 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 110 stages of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of vertical solar bladed turbines equipped with thermal insulation system aiming at two stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 112 stages of vertical solar full-wing gravity solar thermal turbines equipped with thermal insulation system aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to make it approach 1200 degrees + Accelerate the amount of specific material vertically downward Increase the power generation aiming at increasing the amount of power generation Two wedge-shaped all-rotor gravity solar thermal turbines equipped with heat retention device installed 113 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 114 thermal stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 115 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 116 stages of + + various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface with 117 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 118 stages of vertical rotor blade gravity solar thermal turbines equipped with a thermal insulation device aiming at increasing the amount of accelerated power generation vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing the amount of power vertically downward Two vertical wing rotors with two types of gravity solar thermal turbines provided in 119 stages + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 120 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aiming at increasing power generation as accelerated rolling contact with liquid indium downward vertically Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increasing power generation capacity Two types of vertical full blade gravity solar heat turbine provided in one stage + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A vertical-type full rotor blade gravity solar thermal turbine equipped with a heat retention system for heating the air by compressed air acceleration of liquid indium to increase power generation capacity Two types of solar power turbines with two types of stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase the amount of generated power + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engines that tilt and rotate the sun heater on the surface of the water + provided in four stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output A variety of energy storage cycle coalescing engines, in which two types are provided in five stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in six stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar heat turbines are provided in 7 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 8 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 9 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device that aims to increase power generation capacity by accelerating to 2 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface with 10 vertical stages of two-bladed full blade floating solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as two stages in 11 stages + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical bladed full blade gravity solar thermal turbines equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, which has two types of vertical rotor blade gravity solar thermal turbines in 13 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 14 stages of 2 types of vertical type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 15 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aiming at 16 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 17 vertical stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with a heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation ratio vertically downwards for the critical material Vertically equipped with thermal insulation system aiming at increasing the amount of power generation Two 18-stage vertical solar blade turbines equipped with thermal solar turbine + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 stages of vertical wing moving blade gravity solar thermal turbines with 19 thermal stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, provided in 20 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 21 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engine that tilts and rotates a solar heater on the water surface with 22 types of types.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 23 types of vertical type all blade gravity solar thermal turbine equipped with heat retention device aiming at accelerating power generation increase vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate the power vertically downward to provide 24 vertical stages of 2 types of vertical solar blade gravity solar thermal turbines + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Two vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Two kinds of vertical solar blade gravity solar heat turbines are provided in 25 stages + Various energy to tilt and rotate a solar heater on the water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 26 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A full-rotor full bladed gravity solar thermal turbine equipped with a heat retention system for heating the air by compressed air acceleration of liquid indium to increase power generation capacity 27 kinds of solar power turbines equipped with 27 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase power generation aiming at 28 stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface provided in 29 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output 30 types of 2 types provided + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water by providing two stages of turbines in 31 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 32 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical blade all type gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with two stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device to accelerate power generation and increase power generation capacity.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of 35-stage vertical wing full blade gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention device aiming at increased power generation as 36 stages of various types of energy saving cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical bladed full blade gravity solar thermal turbine provided with 37 stages + Various energy preservation to rotate the solar heater by tilting on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water with 38 stages of 2 types of vertical wing type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 39 types of vertical solar blade with full blade gravity solar heat turbine equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 40 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 41 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 42 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to get close to 1200 degrees + Accelerate the amount of specific material vertically downward Increase the power generation aiming at increasing the amount of power generation Two wedge-shaped all-rotor gravity solar thermal turbines equipped with heat retention device are provided in 43 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 stages of floating wing all blade wing gravity solar thermal turbine with 44 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 45 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 46 stages of + + various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 47 kinds of types + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 48 stages of 2 types of vertical wing all type gravity solar heat turbine equipped with a heat retention device for increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with two stages of vertical rotor blade gravity solar heat turbines in 49 stages + tilt and rotate a solar heater on the water surface.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates the solar heater on the water surface equipped with 2 stages of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 51 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical wing moving gravity solar heat turbine equipped with 52 stages + Various kinds of energy storage to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + Ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 52 stages of vertical rotor blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing uplifting storage + Long lens width increase heating Compress air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 54 stages of vertical rotor blade gravity solar thermal turbines equipped with thermal insulation devices that aim at increasing power generation capacity by accelerating them.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Two types of vertical wing moving solar gravity turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward equipped with 55 types of two types of solar power turbines + Various energy conservation cycle combination to rotate the sun heater on the water surface organ.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy as rising + preservation of long lens width increase heating air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 56 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Configuration and method for vertically accelerating liquid indium containing a 2 to 26 times gravity solar power generation alloy with a turbine blade cross section (4X) + air tube air suction suction heat recovery to superheat steam (50) and compressed air (28a 2.) Drive the turbine in + + Heat retention and increase ball lifter (2F) and use liquid indium containing alloy to rise and hold + Long lens width increase heating Compress air to approach 1200 degrees + Liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical wing moving solar gravity turbines equipped with thermal expansion devices equipped with 57 stages + Various energy preservation to rotate the solar heater by tilting on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All types of energy saving cycle combining engines that tilt and rotate a solar heater on the water surface equipped with 58 types of 2 types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 59 stages of 2 types of vertical full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 60 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 61 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle coalescing engine that tilts and rotates a solar heater on the water surface, equipped with 62 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 63 types of two types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation All-rotating-blade Gravity Two types of solar thermal turbines are provided in 64 stages + Various energy conservation cycle combined engines that tilt and rotate a solar heater on water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 65 types of two types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle united engine that tilts and rotates a solar heater on the water surface, equipped with 66 types of 2 types of full blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase of long lens Compress air of heating lens to approach 1200 degrees + Ratio specific substance Accelerating power generation increase with heat retention device aiming at increase power generation A total energy saving cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 67 types of two types of all moving blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 68 stages of 2 types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical wing type all blade gravity solar heat turbine equipped in 69 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 stages of two types of vertical-type full blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 71 types of 2 types of vertical wing type all blade gravity solar thermal turbine equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Use liquid indium containing alloy in (2F) ascend and store + Long lens width increase Compress air for heating to approach 1200 ° C. + Incubate heavier material vertically downward to increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 72 stages of 2 types of vertical wing type all blade gravity solar thermal turbines equipped.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 73 vertical stages of two types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 74 stages of two types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two stages of 75-stage vertical solar full-wing gravity solar thermal turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 76 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the width of heating lens to increase the width of heating lens to make it approach 1200 degrees + aim liquid crystal containing liquid alloy as acceleration rolling contact vertically downward aiming at increase of output A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 77 types of 2 types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface with 78 vertical stages of 2 types of vertical bladed full bladed solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 79 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 80 stages of two types of vertical wing type all blade gravity solar thermal turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 81 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage use of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degrees + liquid indium containing high temperature alloy vertically accelerated downward as accelerated rolling contact increase power generation A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 82 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface with 83 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 2 stages of 84 types of vertical solar all-rotor gravity solar thermal turbines equipped with a heat retention device to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 85 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 86 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter Increase storage capacity of liquid indium containing alloy in (2F) + compress the air of width increase heating air of long lens to make it approach 1200 degree + generate air by heating air with compressed air of liquid indium containing alloy increase power output A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 87 vertical stages of 2 types of vertical bladed full bladed solar thermal turbines equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 88 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 89 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 90 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 91 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the liquid indium containing the alloy vertically downward by providing a 2 to 26 times gravity solar thermal power generation turbine with a turbine blade cross section (4X) in multiple stages + battery storage various ships like kind + ship warmer increase ball lifter (2F) Uplift and use liquid indium containing alloy + Width increase lens of long lens Compress air for heating to approach 1200 degrees + Vertical blade with thermal insulator aiming at maximum power output Two types of solar thermal turbines provided in 92 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 ° C + specific material accelerates vertically downward power generation with a heat retention device aimed at increasing the amount of power generation Two vertical blade all gravity solar thermal turbines equipped with 93 types + solar heater on the water surface The various energy storage cycles combined engine to rotate at tilt.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Is compressed to approach 1200 degrees + + heavier materials are accelerated vertically downward to increase power generation with two heat sinks equipped with 2 types of vertical wing all blade gravity solar thermal turbines + solar heater Various energy storage cycles combined engine that tilts and rotates on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid Indium containing alloy is accelerated downward as accelerated rolling contact with vertically moving liquid indium and equipped with a heat retention device aiming at increased power output Two types of wing-type full blade gravity solar thermal turbines are provided in 95 stages + solar Various energy storage cycle combined engines that tilt and rotate the light heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air Compresses and approaches 1200 degrees + Liquid Indium containing high-temperature alloy is accelerated downward as accelerated rolling contact with vertically moving liquid indium and equipped with a thermal insulator to aim at increased power generation with two types of rotor blade gravity solar thermal turbines provided in 96 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use heat-absorbing material in a straight line + heat retention increase ball rise device (2F), increase in drop + heat retention increase ball rise device (2F), use liquid indium containing alloy in rise storage and use + Long lens width increase heating air近 近 1200 度 度 イ ン ジ ウ ム Liquid indium containing alloy 合金 圧 縮 イ ン ジ ウ ム イ ン ジ ウ ム イ ン ジ ウ ム イ ン ジ ウ ム 97 竪 竪 動 97 97 97 97 97 97 97 97 97 + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation device to increase acceleration power generation vertically downward and equipped with 2 types of vertical wing all solar blades gravity solar thermal turbine with 2 stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system for accelerating the power vertically downward to increase the amount of power generation. Two types of vertical wing moving blade gravity solar thermal turbines are provided in 99 stages + Various energy storage cycle combinations that rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy to rotate the solar heater on the water surface by providing 100 stages of vertical wing full blade gravity solar heat turbine equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with a heat retention device aiming at increase of electric power generation capacity Two types of vertical bladed full blade gravity solar heat turbine provided with 101 stages + Various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A 102-stage vertical rotor blade gravity solar thermal turbine equipped with a heat retention device for heating the air by heating liquid indium with compressed air acceleration to increase the power generation capacity + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compressed air of width increase heating of long lens Close to 1200 degrees + Ratio specific substance accelerated downward to vertically downward power generation power generation unit aiming at increasing power generation capacity 2 types of rotor type all blade gravitational solar heat turbines 103 types in 103 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in the 104th stage.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 105 stages are provided + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 106 stages + sun light heaters are inclined on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines are provided in 107 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 108 stages of 2 types of vertical blade all type gravity solar heat turbine equipped with a heat retention device for increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface equipped with 2 types of vertical wing all types of gravity gravity solar thermal turbine equipped with a heat retention device that aims to increase power generation capacity by acceleration.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface by providing 110 vertical stages of two-bladed full blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as two stages in 111 stages + various energy storage cycles to tilt and rotate a solar heater on water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation amount + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface that is provided with 113 stages of 2 types of vertical type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 114 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 115 stages of 2 types of vertical wing type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the surface of the water, equipped with 116 stages of vertical solar all-rotor gravity thermal turbines equipped with thermal insulation system aiming at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 117 vertical stages of 2 types of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get close to 1200 degrees + specific critical substance vertically downward accelerating power generation equipped with thermal insulation device aiming at increasing the power generation 2 2 types of vertical blade all types of gravity solar thermal turbine provided in 118 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier substances vertically downward to increase power generation with 2 heatwells with all thermal wing blade gravity solar thermal turbines 119 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in 120 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types The various energy storage cycle combined engine which tilts rotation on the surface of the water + solar light heater provided in one stage.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engine that tilts and rotates the sun heater on the surface of the water.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation device aiming at increasing the amount of accelerated power generation vertically downward and equipped with two types of vertical wing all solar blades gravity solar thermal turbine with three stages.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention device to accelerate power generation downward vertically. Two types of vertical wing moving blade gravity solar thermal turbines are provided in four stages + Various energy conservation cycle combination to rotate the solar heater by tilting on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy for rotating the solar heater on the water surface by providing 5 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increase of the power generation capacity Two types of vertical rotor blade gravity solar heat turbine provided with six stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system for heating air by compressed air acceleration to increase power generation capacity. Two vertical rotor blade gravity solar thermal turbines are provided in seven stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Compression of the air of width increase heating of the long lens to make it approach 1200 degrees + Ratio specific substance vertically accelerated downward to increase power generation Aiming to increase the power generation capacity 2 types of vertical blade all blade wing gravity solar thermal turbine with 8 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water, provided in 9 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 10 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of turbines provided in 11 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle coalescing engines, in which two types of solar thermal turbines are provided in 12 stages + sun light heaters are inclined and rotated on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 13 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the water surface, equipped with 14 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device that aims to increase power generation capacity by accelerating to two stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical full blade gravity solar thermal turbine equipped with a heat retention device for increasing power generation as acceleration rolling contact vertically downward and two kinds of solar power turbines are provided in 15 stages + Various energy conservation cycle combination to tilt and rotate a solar heater on water surface organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as two stages in 16 stages + various energy storage cycles to tilt and rotate a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar heat turbine equipped with a heat retention device for heating air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 18 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with two types of vertical type all blade gravity solar heat turbine equipped with 19 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 20 stages of 2 types of vertical type all blade gravitational solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 21 stages of 2 types of vertical solar all-rotor gravity thermal turbines equipped with a heat retention device to aim at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface with 22 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with heat retention device aiming at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get closer to 1200 degrees + Increase the power generation rate by increasing the power of the critical substance vertically downwards. Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate the heavier materials vertically downward to increase power generation with 24 thermal stages of floating wing full blade gravity solar thermal turbine equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the surface of the water + provided in 25 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 26 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 A variety of energy storage cycle coalescing engines that tilt and rotate a solar heater on the surface of the water.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle coalescing engines that tilt and rotate a solar heater on the water surface with 28 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation vertically downward.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system that aims at increasing power generation amount vertically Vertically moving blades Gravity-type solar thermal turbine Two kinds of 29 types of solar power turbines + + Various kinds of energy storage cycle combination organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Various types of energy for rotating the solar heater on the water surface by providing 30 stages of vertical rotor blade gravity solar thermal turbines equipped with a heat retention device for increasing power generation as accelerated rolling contact with liquid indium vertically downward Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium in the vertical downward direction for accelerated rolling contact and equipped with a heat retention device aiming at increasing power generation capacity Two types of vertical bladed full blade gravity solar heat turbine provided with 31 stages + Various types of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy The liquid-indium is equipped with a heat retention system that heats air by compressed air acceleration to increase power generation capacity. Two vertical rotor blade gravity solar heat turbines are provided in 32 stages + Tilting and rotating a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation aiming to increase power generation Two vertical blade all gravity wing solar thermal turbine equipped with heat retention device 33 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle coalescing engines that tilt and rotate the sun heater on the water surface provided in 34 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 35 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle coalescing engines, in which two types of turbines are provided in 36 stages + sun light heaters are inclined and rotated on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of solar thermal turbines provided in 37 stages.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 38 types of vertical type all blade gravity solar heat turbine equipped with a heat retention device aiming at acceleration power generation increase.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with two stages of vertical rotor blade gravity solar heat turbines in 39 stages + inclined rotation of a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates the solar heater on the water surface equipped with 40 stages of vertical solar full-wing gravity solar thermal turbine equipped with thermal insulation device aiming at increased power generation as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 41 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Two types of vertical wing-type full blade gravity solar thermal turbine equipped with a heat retention device for heating the air by compressed air acceleration to increase power generation capacity + Various energy preservation to tilt and rotate a solar heater on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with 43 stages of 2 types of vertical type all blade gravity solar thermal turbines.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the surface of the water.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface equipped with 45 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 46 stages of 2 types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy conservation cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 47 types of vertical solar blade full-wing gravity solar thermal turbines equipped with thermal insulation to aim at increase.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to get close to 1200 degrees + specific critical substance vertically downward accelerating power generation equipped with thermal insulation system aiming at increasing power generation 2 2 types of vertical wing moving blade gravity solar thermal turbines are provided in 48 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air to approach 1200 degrees + accelerate heavier materials vertically downward to increase power generation with 49 thermal stages of two wing type all blade gravity solar thermal turbines equipped with heat retention device + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 50 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 51 stages of + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 52 types of types + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the heat absorbing material in a straight line + Heat retention ball lift device (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase heating air to close to 1200 degrees + ratio critical substance Various energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with thermal insulation devices to increase acceleration power generation vertically downward and equipped with two types of vertical blade all types of gravity solar thermal turbines equipped with heat retention device.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat the absorbent material in a straight line + Heat retention ball lifter (2F) to use liquid indium containing alloy to rise and hold + Long lens width increase Heating air to close to 1200 degrees + Heavy material The vertical blade is equipped with a heat retention system to accelerate power generation downward vertically, and two types of vertical wing moving blade gravity solar heat turbines are provided in 54 stages + Various energy storage cycle combination to tilt and rotate a solar heater on the water surface organ.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy Two vertical rotor blade gravity solar thermal turbines equipped with a heat retention device aiming at increased power generation as accelerated rolling contact with liquid indium downward vertically Two types of 55 types of solar rotors with gravity solar heat turbine + Various energy to tilt and rotate a solar heater on the water surface Preservation cycle union agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Heat collecting material in linear form + heat retention increase use ball rising device (2F) to use liquid indium containing alloy to rise and hold + wide lens width increase heat compression air to approach 1200 degrees + high temperature alloy Containing liquid indium as acceleration rolling contact vertically downward and equipped with heat retention device aiming at increase of power generation as a vertical-type full blade wings 2 types of solar power turbine provided with 56 stages + various kinds of tilting and rotating a solar heater on the water surface Energy Conservation Cycle Coalition Agency.   Structure and method to accelerate liquid indium containing high temperature alloy vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold use heat accumulation + solar lens with long lens Use a heat-absorbing material in a straight line + warm-warming ball lifter (2F) to use liquid indium containing alloy to rise and save + long lens width increase heating air to be close to 1200 degrees + include alloy A vertical-type full rotor blade gravity solar thermal turbine equipped with a heat retention system for heating the air by compressed air acceleration of liquid indium to increase power generation capacity 57 kinds of solar power turbines are provided in 57 stages + Tilt and rotate a solar heater on the water surface Various energy conservation cycle union engine.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Ratio critical substance vertically downward accelerating power generation aiming to increase power generation Two vertical blade all gravity wing solar thermal turbines equipped with heat retention device 58 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress the heating air to get closer to 1200 degrees + Accelerate the heavier substances vertically downward to increase power generation by installing 2 types of vertical wing all blade gravity solar thermal turbine with thermal insulator A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface, which is provided in the 59th stage.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling contact with vertical axis and equipped with heat insulator to aim at increase of electric energy output Two types of 60 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width expansion heating air compressed to approach 1200 ° + liquid indium containing high temperature alloy vertically downward accelerated roller contact as a rolling contact to aim at power output increase aiming at generating capacity increase solar wing gravity solar thermal energy A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface with two types of turbines provided in 61 stages.   Equipment method to make the turbine blade cross section (4X) 2 to 26 times gravity solar thermal power output generating turbine blade all the way + factory electrification to make up + heat retention increase ball rising device (2F) lift up and use liquid indium containing alloy with alloy + Long lens width increase Compress air for heating to approach 1200 ° + Liquid indium containing alloy Compress air with compressed air Heat air for air to increase power output 竪 全 動 動 動 動 動 動 動Two types of solar thermal turbines provided in 62 stages + Various energy storage cycle combined engines that tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + keep warm and increase the use of liquid indium containing alloy in warmth increase ball lift device (2F) + compress the width of heating lens wide increase heating air to approach 1200 degrees + ratio critical substance vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface, equipped with 63 types of vertical type all blade gravity solar heat turbines equipped with a heat retention device aimed at increasing the amount of accelerated power generation.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather straight into the material + use heat retention increase ball lifter (2F) to raise and use liquid indium containing alloy + wide lens width increase heat compression air to approach 1200 degrees + heavier substance vertically downward A variety of energy storage cycle coalescing engines that are equipped with thermal insulation devices to accelerate power generation and increase the amount of power generation, and are equipped with 64 types of vertical solar rotors with two types of gravity solar thermal turbines + tilt and rotate a solar heater on the water surface.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Various energy conservation cycle combination that tilts and rotates a solar heater on the water surface equipped with 2 stages of vertical wing all type wing gravity solar thermal turbine equipped with heat retention device aiming at power generation increase as acceleration rolling contact vertically downward organ.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention and increase ball lifter (2F) to use liquid indium containing the alloy ascend storage + Long lens width increase heat compression air to approach 1200 degrees + liquid indium containing high temperature alloy Vertically-downward accelerated rolling contact with two heat sinks equipped with heat retention devices aiming at increased power generation as 66 stages of various types of energy saving cycles for tilting and rotating a solar heater on the water surface Coalition agency.   Structure and method to accelerate the critical substance vertically downward by providing gravity solar thermal power generation turbines of 2 to 26 times the turbine blade cross section (4X) in multiple stages + heat and cold using heat + energy + heat lens to absorb sunlight with heat Gather linearly to the material + Heat retention increase ball lift device (2F) and use liquid indium containing alloy to rise and hold + Width of long lens compression heat of heating air to approach 1200 degrees + liquid indium containing alloy Equipped with thermal insulation system for heating air by compressed air acceleration to increase power generation capacity Two types of vertical bladed full blade gravity solar heat turbine provided with 67 stages + Various energy preservation to rotate the solar heater by tilting on the water surface Cycle coalescing agency.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) by rising up + using the width increase heating air compression of the long lens to make it approach 1200 ° C. + thermal insulation device aiming to increase the power generation rate to increase the critical substance vertically downward A variety of energy storage cycle combined engines that tilt and rotate a solar heater on the water surface, which is equipped with 68 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Use liquid indium containing the alloy in the device (2F) ascending and storing + lengthening the width of the long lens Compressing the air of heating to make it approach 1200 ° C. + Incubating device aiming at increasing power generation by accelerating heavier substances vertically downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with two types of vertical wing type all blade gravity solar heat turbine equipped with 69 stages.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage capacity of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get closer to 1200 degree + increase power generation as accelerated rolling contact with liquid indium containing alloy downward A variety of energy conservation cycle combined engines that tilt and rotate a solar heater on the water surface equipped with 70 stages of two types of vertical wing type all blade gravity solar heat turbine equipped with a heat retention device aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise Increase storage use of liquid indium containing alloy in device (2F) + compress width of long lens width increase heating air to get close to 1200 degrees + increase power generation as accelerated rolling contact with liquid indium containing high temperature alloy vertically downward A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, equipped with 71 types of vertical solar blade all-in-one gravity and thermionic turbines equipped with thermal insulators aimed at.   Structure and method to accelerate the liquid indium containing the alloy vertically downward in the heat retention turbine by arranging the gravity solar thermal power generation turbine of 2 to 26 times the turbine blade cross section (4X) in multiple stages + making full surface electrification residential building + heat retention increase sphere rise In the device (2F), use the liquid indium containing the alloy ascending + storing the width of the long lens heating the compressed air to make it approach 1200 degrees + the liquid indium containing the alloy heating the air with the compressed air acceleration to generate electricity A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is equipped with 72 types of vertical wing all-rotor gravity solar heat turbines equipped with thermal insulation devices aimed at increasing.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Compress the lens width increase heating air to get close to 1200 degrees + Increase the power generation ratio vertically downwards for the critical material Vertically equipped rotor with two heat sinks equipped with heat retaining device aiming at 73 stages + Various energy storage cycle combined engine that tilts and rotates a solar heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress the heating air and move it towards 1200 degrees + accelerate the heavier substances vertically downward to increase power generation by 2 stages of floating wing all blade gravity solar thermal turbine with 74 stages + + Various energy storage cycle combined engine that tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy is accelerated downward as vertical rolling accelerated rolling contact with thermal insulation device aiming to increase power generation Two types of floating solar blade gravity solar thermal turbines A variety of energy storage cycle combined engine that tilts and rotates the sun heater on the water surface provided in 75 stages.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing high temperature alloy accelerate downward as vertical rolling and roll contact with thermal inertia device aiming at power output increase aiming at power output increase 2 types of 2 types 76 stages of + + Various energy storage cycle combined engine which tilts and rotates the sun heater on the water surface.   Structure and method of 2 to 26 times gravity solar thermal power generation of turbine blade cross section (4X) + storage battery drive to make various automobiles flourish + heat retention increase use ball rising device (2F) to use liquid indium containing ascent and save + length Lens width increase Compress air to make it approach 1200 degrees + Liquid indium containing alloy Compress air to accelerate air by heating air by air boost to increase power output 竪 全 重力 太陽 保温 熱 熱 2 Various energy conservation cycle combined engines that tilt and rotate the sun heater on the water surface.   Various energy storage cycle combined engines which drive each alternate rotation heat retention turbine which provided turbine blade section (4X) 2 to 26 times by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating rotation heat retention turbine provided with doubled turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating rotation heat retention turbine provided with triple turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating rotation heat retention turbine provided with four times the turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with five times the turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with six times the turbine blade cross section (4X) with liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with 7 times the turbine blade cross section (4X) with liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with a turbine blade cross section (4X) eight times with liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with 9 times the turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating rotation heat retention turbine provided with 10 times the turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with a turbine blade cross section (4X) at 11 times with liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with a 12 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with a 13 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with 14 times the turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with a 15 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with a 16-fold turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with 17 times the turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating rotation heat retention turbine provided with a turbine blade cross section (4 ×) 18 times is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with a 19 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with a 20 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with a 21 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating rotation heat retention turbine provided with a 22 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with a 23 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating rotation heat retention turbine provided with 24 times the turbine blade cross section (4X) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines in which each alternating-rotation heat-retaining turbine provided with a 25 × turbine blade cross section (4 ×) is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 103 types of vertical type all blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 2 stages of 104 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 105 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 106 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle combined engine that tilts and rotates a solar heater on the water surface, which is provided with 107 types of 2 types of vertical wing type all blade gravity solar thermal turbine.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 108 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 2 stages of 109 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 110 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating rotation heat retention turbine provided with 111 stages of two types of floating all-blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 112 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 113 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 114 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 115 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 116 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 117 stages of two types of paddle-shaped full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 118 stages of two types of vertical bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 119 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 120 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two types of vertical-type full blade gravity solar thermal turbines in one stage is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with two types of vertical solar full blade gravity solar thermal turbines in two stages with liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two types of vertical-type full blade gravity solar thermal turbines in three stages is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines that drive respective alternating rotation heat retention turbines, each of which is provided with four stages of two types of vertical solar blade gravity solar thermal turbines, with liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with five stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with six types of vertical solar full-blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 7 types of vertical solar full-blade gravity solar thermal turbines in 7 stages is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines that drive each alternate rotation heat retention turbine provided with 8 types of vertical solar blade turbines of two types in eight stages with liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 9 types of vertical solar full-blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 10 types of vertical solar blade gravity solar thermal turbines in 10 stages is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 11 stages of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 12 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 13 types of vertical solar blade gravity gravity turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 14 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 15 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 16 types of vertical solar full-blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 17 vertical stages of two-bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 18 vertical stages of two types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of vertical rotor blade gravity solar thermal turbines in 19 stages is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with 20 stages of two types of vertical solar blade gravity solar thermal turbines with liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 21 stages of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 22 types of vertical solar blade gravity solar thermal turbines in 22 stages is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 23 vertical stages of two-bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 24 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 25 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with 26 stages of two types of vertical solar blade gravity solar thermal turbine with liquid indium containing alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 27 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 28 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 29 stages of two types of vertical all-blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 30 types of vertical solar full-blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 31 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 32 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two types of vertical-type full blade gravity solar thermal turbines in 33 stages is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with 34 stages of two types of vertical bladed full blade gravity solar thermal turbine with liquid indium containing alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 35 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 36 types of vertical solar blade gravity gravity turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 37 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 38 vertical stages of two types of floating total blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 39 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 40 stages of two types of vertical bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 41 stages of two types of paddle-shaped full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 42 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 43 stages of two types of wing-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 44 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 45 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 46 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 47 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with 48 stages of two types of vertical bladed full blade gravity solar thermal turbine with liquid indium containing alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 49 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 50 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 51 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 52 stages of two types of paddle-shaped full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 53 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 54 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 55 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 56 types of vertical solar blade gravity gravity turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 57 stages of two types of vertical bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines, in which each alternating rotation heat retention turbine provided with 58 stages of two types of vertical bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 59 types of vertical solar blade gravity gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 60 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 61 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines that drive each alternating rotation heat retention turbine provided with 62 stages of two types of vertical solar blade gravity solar thermal turbine with liquid indium containing alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 63 stages of two types of vertical all-blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 64 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 65 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 66 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 67 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 68 stages of two types of vertical bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two types of vertical-type full blade gravity solar thermal turbines in 69 stages is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 70 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 71 vertical stages of two types of floating all-rotor gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 72 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 73 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 74 stages of two types of rotor type all blades gravity solar thermal turbine is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 75 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 76 stages of two types of vertical all-blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 77 stages of two types of floating all-rotor gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 78 types of vertical solar blade gravity gravity turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 79 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 80 types of vertical solar blade gravity gravity turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 81 stages of two types of paddle-shaped full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 82 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 83 types of vertical solar full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 84 stages of two types of paddle-shaped full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   Various energy storage cycle coalescing engines, in which each alternating rotation heat retention turbine provided with 85 stages of two types of vertical bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 86 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 87 vertical stages of two-bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 88 types of two types of floating wing type all blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 89 stages of two types of vertical bladed full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 90 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 91 stages of two types of paddle-shaped full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 92 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 93 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 94 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 95 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 96 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 97 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 98 stages of two types of vertical-type full blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with two stages of 99 types of vertical solar blade gravity solar thermal turbines is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 100 types of vertical solar blade gravity solar thermal turbines in 100 stages is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating rotation heat retention turbine provided with 101 types of vertical solar blade gravity sun thermal turbines in two stages is driven by liquid indium containing an alloy.   A variety of energy storage cycle coalescing engines, in which each alternating-rotation heat-retaining turbine provided with 102 types of vertical solar blade gravity solar thermal turbines in 102 stages is driven by liquid indium containing an alloy.