KR100932293B1 - A water splitting energy manufacture system using solor heat and its operational method thereof - Google Patents

Abstract

PURPOSE: An energy generating system decomposing water molecule through the solar energy light concentration and an operating method of the same are provided to store the hydrogen only after decomposing the water molecule and to use saved hydrogen as energy source. CONSTITUTION: An energy generating system decomposing water molecule through the solar energy light concentration comprises a solar heat collecting device(100). The solar concentrator comprises a driving unit(10), heat-receiving units(20,30), a first heating unit(40), a second heating unit(50) and a hydrogen generation unit. The driving unit operates the heat-receiving unit up and down and side to side. The heat-receiving unit heats the first and second heating units. When the water passes through a spraying nozzle tube(41), the first heating unit heats the water and generates high-pressure steam. The second heating unit heats the high-pressure steam from the first heating unit and generates the high-pressure gas. The hydrogen generation unit obtains the hydrogen energy using the high-pressure gas which passed through the second heating unit. An electromagnetic pump is installed in the spraying nozzle tube, and controls the amount of the water to be supplied to the spraying nozzle tube according to the temperature of the electromagnetic pump and emits.

Description

A water splitting energy manufacture system using solor heat and its operational method

The present invention relates to a system for producing energy by decomposing water molecules through solar condensation and a method of operating the same. More specifically, after decomposing water molecules using a solar heat collecting device, only hydrogen is stored in a compression tank. It can be used as a power source or an energy source by connecting with a heat current generator and a steam turbine as well as using it as a source or using heat energy for cooling, heating and hot water, thereby greatly improving the quality and reliability of the system. It allows users to plant good images.

As is well known, the most important issue for human beings living in the 21st century is how to pass on a clean and pollution-free global environment to future generations. Mankind needs an energy source to live. To date, however, we unfortunately use fossil fuels as the main energy sources that cause pollution and environmental degradation. One way to solve this problem is solar power, an infinite source of clean energy.

Solar power makes it possible for us to use energy free of charge for at least five billion years. The practical use of photovoltaic power generation has been actively developed in the developed countries. Technological developments on solar power have made rapid progress in recent decades and are easy to find around us. It is widely used as an electronic calculator, an electronic clock, an unmanned lighthouse, a power source for a wireless telegraph relay base, a main power source for a satellite, and a power supply for a private house.

Photovoltaic power generation uses the quantum photoelectric effect of solar cells, which are semiconductors, in addition to the inherent advantages that the incident solar radiation energy does not cost anything at all. It is a clean energy generation method.

Hydrogen energy, on the other hand, is energy obtained by burning hydrogen, and the amount of hydrogen is three times higher than that of petroleum. Since water is a raw material, transportation and storage are easy. It can be used in all fields that use oil as a pollution-free fuel.

In particular, hydrogen energy is infinite energy because it uses water, and it is eco-friendly because it does not emit any carbon dioxide.

Recently, as oil prices soared to be called 'Third Oil Shock', attention from around the world is being refocused on the development of hydrogen energy as an alternative energy resource.

Hydrogen, with only one proton and one electron, is the most common, accounting for 99 percent of the material of the universe. Hydrogen is also the main component of petroleum, the representative energy source of the 20th century. However, oil is not only a limited resource, but also contains carbon in addition to hydrogen, and burning it produces carbon dioxide, the main culprit of global warming.

However, since hydrogen energy extracts only hydrogen from water (H₂O) and burns it, there is no need to worry about air pollution, and there is no fear that it will be recycled back to water after use.

The range of applications is wide, and it can be used in all energy systems using petroleum such as industrial basic materials, general fuel, hydrogen vehicle, hydrogen airplane, fuel cell, and so on. For this reason, hydrogen is expected to be a future clean energy source to replace fossil fuels.

The easiest way to get hydrogen from water is to decompose it using electricity. However, the economics of hydrogen energy produced are too low compared to the electrical energy used to produce hydrogen.

Even if you use nuclear power, which can produce electricity at the cheapest price, current technology is not very efficient, so if you have only two energy sources to boil water, the hydrogen energy from this is just over one. Undercut is a business.

It is also researching how to make electricity by solar or wind power and then electrolyze water to make hydrogen, but it is also very economical.

Hydrogen is called the energy source of the future for many reasons, despite its many advantages.

Of course, there is a method to separate hydrogen by applying high heat to petroleum or natural gas with commercially available technology, but it is also economical and cannot be regarded as an alternative energy because it uses fossil energy.

In the end, in order to move from the oil economy era to the hydrogen economy, it is urgent to develop a technology capable of producing a large amount of cheap hydrogen, and the 'High Temperrature Gas-cooled Reactor (HTGR)', a kind of nuclear reactor, emerges as an alternative. have.

Another way to make hydrogen from water is to use high-temperature heat energy, which can be used to heat more than 900 degrees Celsius in this ultra-high-temperature gas cooler and use it in a chemical reaction process (thermochemical hydrogen production cycle) of iodine, sulfur dioxide and water. Hydrogen can be obtained stably. Hydrogen produced in this way is called 'nuclear hydrogen'.

However, making a nuclear reactor that can withstand high temperatures of more than 900 degrees Celsius is not a simple task, and advanced countries, including Korea, are devoted to the development of this ultra-high temperature gas cooler. Current reactors, such as light and heavy reactors, are designed to withstand temperatures up to 300 degrees Celsius.

Scientists are investigating the use of graphite, which starts melting at 4,000 degrees Celsius, as the core of the reactor and helium gas as a coolant.

Korea has been developing ultra-high temperature gas cooling furnaces for more than five years, and recently, the Korea Institute of Energy Research and Technology has recently attracted attention by demonstrating a nuclear hydrogen production process that can produce 3 liters of hydrogen per hour.

International cooperation is also active, and the Gen IV International Forum, which consists of scientists around the world in nuclear power, is working to produce hydrogen from nuclear power by adopting ultra-high temperature cooling gas reactors as fourth generation reactors.

In view of this trend, experts believe that nuclear-powered hydrogen production will be completed by 2020, contributing to the popularization of hydrogen fuel.

Of course, there are a lot of homeworks to be solved in this process. In Korea, even if it excludes the social resistance to nuclear power development right now, it is expected that the development of nuclear hydrogen technology will require 10 years and hundreds of billions of investment.

In addition, the construction of ultra-high temperature cooling gas for demonstration of this technology is expected to cost more than 1 trillion won. There is a need for national consensus. In addition to the development of hydrogen energy technology, experts point out that national visions and strategies for the hydrogen economy era, such as infrastructure for the storage, transportation and utilization of hydrogen, and safety regulations, must be established.

The technology for producing hydrogen energy using the solar heat is conventionally applied for and registered as a patent registration No. 0891925 (Application No. 2007-0061408) (name: water decomposition tank manufacturing apparatus using solar condensing of split reaction type) There is a bar.

The conventional water-decomposition hydrogen production apparatus of the prior art is provided with a metal oxide-coated ceramic support, a gas inlet and a gas outlet are provided with a reactant and a partition wall separating two or more of the reactants from each other, the reaction unit is rotatable or movable ; And a light receiving unit for condensing light and having one or more light receiving surfaces disposed above the reactant and being rotatable or movable.

The conventional water-decomposition hydrogen production apparatus of the prior art has the effect that the oxidation and reduction reaction of the metal oxide occurs in one reaction unit at the same time and oxygen and hydrogen are continuously produced by the periodic and continuous rotation of the reaction unit or the light receiving unit, Since the generated hydrogen is discharged from the reactor in a state separated from other gases, there is an advantage of simply condensing moisture to obtain high purity hydrogen.

However, the above-mentioned conventional technology has a very complicated and difficult problem that the structure is very difficult and can only be caused by oxidation and reduction by metal oxides.

The present invention has been made in order to solve the problems of the prior art as described above, the first object is provided with a solar heat collecting device consisting of a driving unit, the first and second heat collecting unit and the first and second heating heating unit and the hydrogen generating unit. The second purpose is to decompose water molecules using a solar heat collector according to the above technical configuration, and then to store only hydrogen in a compression tank and use it as an energy source. It is used for cooling, heating and hot water as well as connecting with a heat current generator and a steam turbine so that it can be used as a power source and energy source. The fourth objective is to provide a low cost and high efficiency effect without complicated technical configuration. In this regard, the fifth objective is to significantly improve the quality and reliability of the system, so that users can plant good images. The present invention provides a system for producing energy by decomposing water molecules through a positive heat condensing and a method of operating the same.

In order to achieve the above object, the present invention is provided with a solar heat collecting device for producing energy through solar condensing, the solar heat collecting device is provided on the upper end of the support, the drive unit for operating the first and second heat collecting unit up, down, left and right; A first and second heat collecting unit which is operated by the operation of the driving unit and collects sunlight to heat the first and second heating units; A primary heating unit provided at the front end of the primary heat collecting unit and generating high pressure steam by heating the water with high heat in the course of passing the water in the tank through the injection nozzle tube; A secondary heating unit provided at the front end of the secondary heat collecting unit and generating high pressure gas by heating the high pressure steam exiting the primary heating unit to high heat again; And one end of the solar heat collecting device provides a system for producing energy by decomposing water molecules through solar condensing, characterized in that the hydrogen generating unit for obtaining hydrogen energy by using a high-pressure gas exiting the secondary heating unit is provided. .

In another aspect, the present invention comprises the steps of pumping the water of the tank with an electronic pump to supply to the primary heating unit; Heating the primary heating unit by solar heat of the primary collection unit, and heating the primary heating unit to 800 to 900 ° C. to generate water of a liquid passing therethrough by high pressure steam; Heating the secondary heating unit by solar heat of the secondary collecting unit, heating the secondary heating unit at 800 to 900 ° C. to generate high pressure steam passing through the high-pressure gas, and separating water molecules; A heat exchange step for compressing the high pressure gas from which the water molecules are separated; A filtration step of releasing the remaining gas except hydrogen and passing only hydrogen; Thereafter, compressing only hydrogen to a high pressure to store in a storage tank; provides a method of operating a system for producing energy by decomposing water molecules through solar condensing.

As described in detail above, the present invention is intended to provide a solar heat collecting device including a driving part, a first and second heat collecting part, and a first and second heating part and a hydrogen generating part.

According to the present invention, after decomposing water molecules using a solar heat collector, only hydrogen is stored in a compression tank and used as an energy source.

In addition, the present invention is to use the heat energy stored in the cooling, heating and hot water as well as connected to the heat current generator and steam turbine to be used as a power source and energy source.

In addition, the present invention can provide an effect of low cost and high efficiency without complicated technical configuration.

The present invention is a very useful invention that can significantly improve the quality and reliability of the system due to the above-described effect so that the user can plant a good image.

Hereinafter, described in detail with reference to the accompanying drawings a preferred embodiment of the present invention for achieving this effect are as follows.

The system for producing energy by decomposing water molecules through solar condensation applied to the present invention and a method of operating the same are configured as shown in FIGS. 1 to 6.

In the following description of the present invention, if it is determined that specific descriptions of related known functions or configurations may unnecessarily obscure the subject matter of the present invention, the detailed description thereof will be omitted.

The following terms are terms set in consideration of functions in the present invention, which may vary depending on the intention or custom of the producer, and their definitions should be made based on the contents throughout the specification.

First, the present invention is to be provided with a solar heat collecting device 100 (first embodiment; Figures 1 to 3) 200 (second embodiment: Figures 4 to 6) for producing energy through solar condensing When described in more detail below.

The solar heat collecting apparatus 100 according to the first embodiment of the present invention is configured as follows.

It is provided on the upper end of the support stand 11, the drive unit 10 for operating the first and second heat collecting unit 20, 30 up, down, left and right is provided.

At this time, the driving unit 10 is provided with a driven gear 12 fixed to the upper end of the holding table 11, as shown in Figure 2 (a) (b).

And the rotary plate 13 is installed on the upper end of the driven gear 12 and selectively rotates together with the first and second heat collecting units 20, 30.

In addition, the driving motor 14 is fixed to the upper end of the rotary plate 13, and rotates the drive gear 15 in a state of being engaged with the driven gear 12.

In addition, a driving cylinder 16 and an arm 17 are provided at the upper end of the rotating plate 13.

In particular, the frame 22 is provided at one end of the first and second heat collecting units 20 and 30, and at one end of the frame 22, the driving cylinder 16 is connected to the first hinge shaft 18. A flange 22a to which 17 is connected to the second hinge shaft 19 is provided.

The present invention is provided with a solar tracking device (21) for operating the drive unit 10 up, down, left and right by tracking the sunlight in the center of the top of the frame 22 in real time.

In addition, the present invention is operated by the operation of the drive unit 10, the first and second heat collecting unit 20, 30 to collect the sunlight to heat the first and second heating unit 40, 50 is provided do.

In this case, the first and second heat collecting units 20 and 30 are fixed to the frame 22 to collect sunlight, and are provided with a reflector 23 made of any one selected from a metallic stainless plate and glass or a mirror.

The reflector 23 is formed with a concave reflecting surface 24 so as to collect and concentrate the sunlight, and the front surface of the reflecting surface 24 is any one selected from aluminum, silver, and chromium, which can increase the reflectance. One metal deposition layer 25 is coated, and the outer circumferential surface of the metal deposition layer 25 is provided with a protective film 26 coated with urethane to protect the metal deposition layer 25.

And the present invention is provided at the front end of the primary heat collecting unit 20, the primary heating heating to generate high pressure steam by heating the water at a high temperature in the process of passing the water of the water tank 101 through the injection nozzle pipe 41 The part 40 is provided.

At this time, in the injection nozzle tube 41 between the water tank 101 and the primary heating unit 40 applied to the present invention to control the amount of water supplied to the injection nozzle tube 41 in accordance with the temperature strongly to the electron Pump 102 is provided.

In addition, the present invention is provided at the front end of the secondary heat collecting unit 30, the secondary heating heating unit 50 for generating high pressure gas by heating the high pressure steam exiting the primary heating unit 40 to high heat again It is composed.

And the first and second heating heating 40, 50 applied to the present invention can be heated to a high temperature while the water supplied to the injection nozzle pipe 41 is circulated in front of the first and second heat collecting unit (20, 30). The heating collecting tank 42 wound in a spring shape is provided.

In addition, one end of the solar heat collector 100 applied to the present invention is provided with a hydrogen generating unit 90 for obtaining hydrogen energy by using a high-pressure gas exiting the secondary heating unit 50.

At this time, the hydrogen generating unit 90 is connected to one side of the secondary heating unit 50, the heat exchanger 105 for cooling the gas of high pressure is provided.

And the present invention is connected to one side of the heat exchanger 105, and is provided with a filter unit 106 for passing only hydrogen in the high-pressure gas and discharge the remaining gas into the atmosphere.

In addition, the compression unit 107 is connected to one side of the filtration unit 106 and compresses only hydrogen that has passed through the filtration unit 106 at a high pressure.

In addition, the present invention is provided with a storage tank 108 that can be used to store the compressed hydrogen at one end of the compression unit 107 to take out as needed.

At this time, the filtration unit 106 is preferably made of activated carbon for decolorization, purification, catalysis, or a molecular sieve separating fine particles or molecules.

On the other hand, the solar collector 100 applied to the present invention is provided with a solar panel 103 connected to the storage battery 104 is connected to one side to drive the solar collector.

The present invention may be configured as the following second embodiment in addition to the first embodiment described above, and the solar heat collecting apparatus 200 as the second embodiment of the present invention is configured as follows.

That is, the solar heat collecting device 200 is provided with the third and fourth heat collecting units 60 and 70 provided at the upper end of the frame 22 provided with the first and second heat collecting units 20 and 30.

And it is provided by the upper end of the burner 80 which is heated by the third and fourth heat collecting unit 60, 70 and connected to one end of the secondary heating unit 50, the secondary heating unit 50 A heating tank 81 is provided in which the high-pressure gas discharged to the injection nozzle pipe 41 is lit by the ignition device of the burner 80 and heated.

In addition, any one selected from the heating device 201, the boiler 202, the thermal current generator 203, the steam turbine 204 is connected to the circulation motor at one end of the solar heat collector 200 applied to the present invention. do.

The remaining technical configuration of the second embodiment applied to the present invention is the same as the first embodiment.

On the other hand, the present invention may be variously modified and may take various forms in applying the above configuration.

And it is to be understood that the invention is not limited to the specific forms referred to in the above description, but rather includes all modifications, equivalents and substitutions within the spirit and scope of the invention as defined by the appended claims. It should be understood that.

Referring to the operation and effect of the system for producing energy by decomposing water molecules through the solar condensation of the present invention configured as described above and its operating method are as follows.

First of all, the present invention decomposes water molecules using a solar heat collecting device, and then stores only hydrogen in a compression tank and then uses it as an energy source or using heat, cooling, heating and hot water as a thermal current generator. It is connected to the steam turbine so that it can be used as a power and energy source.

To this end, according to the first embodiment of the present invention, as shown in FIG. 3, the water of the water tank 101 is pumped to the electronic pump 102 to be supplied to the primary heating unit 40. The water is strongly ejected from the nozzle, creating a vaporization of moisture.

At this time, the electronic pump 102 performs a variable operation of supplying a small amount of water when the temperature of the first and second heating elements 40 and 50 to be described later is lowered and a large amount of water when the temperature is increased. Done.

Water gasified by the driving of the electronic pump 102 is supplied to the first and second heating units 40 and 50, wherein the solar heat collecting apparatus 100 moves up, down, left, and right by the driving unit 10. Solar heat is supplied to the fixed primary and secondary heating parts 40 and 50.

In more detail, the solar tracking device 21 provided at the upper end of the frame 22 drives the driving unit 10 by tracking the sunlight in real time, and is driven by the driving unit 10. Car heat collection unit 20, 30 will always provide the optimal position to receive sunlight while looking at the sun according to the movement of the sun.

Therefore, in the present invention, the first and second heat collecting units 20 and 30 operate up, down, left, and right by the driving of the driving unit 10 (Figs. 2a, b and 5a, b). same.

First, when the first and second heat collecting units 20 and 30 move side to side, when the driving motor 14 provided at the upper end of the rotating plate 13 is selectively reversed and driven, the driving gear provided at the lower end thereof ( 15 is rotated forward and reverse, wherein the drive gear 15 is interlocked with the driven gear 12 so that the rotating plate 13 is forward and reverse rotated by the forward and reverse driving of the drive gear 15, which results in As a result, all components provided at the upper end of the rotating plate 13, that is, the first and second heat collecting units 20 and 30, are operated left and right.

In addition, the first and second heat collecting units 20 and 30 will be described below to move up and down.

The drive cylinder 16 provided at the upper end of the rotating plate 13 is selectively operated up and down, the drive cylinder 16 is raised to the flange 22a connected to the first hinge shaft 18 to the second hinge shaft When the center is pushed up (19), the first and second heat collecting units 20 and 30 are lowered, and on the contrary, the driving cylinder 16 is lowered and the flange 22a connected to the first hinge shaft 18 is second hinged. Pulling around the axis 19, the primary and secondary collectors 20 and 30 are raised, and as a result, the primary and secondary collectors 20 and 30 can be operated up and down.

As described above, the first and second heat collecting parts 20 and 30 operated up, down, left and right are heated to the fixed first and second heating parts 40 and 50.

That is, the primary heating unit 40 is heated by solar heat of the primary heat collection unit 20, but the primary water heating unit 40 is heated to 800 to 900 ° C. to obtain high pressure steam of liquid water passing therethrough. It goes through the steps of generating.

Thereafter, the high pressure steam passing through the primary heating unit 40 is supplied to the secondary heating unit 50. In this case, the secondary heating unit 50 is heated by solar heat of the secondary collection unit 30. However, by heating the secondary heating section 50 to 800 ~ 900 ℃ and the high-pressure steam passing through the high-pressure gas to go through the step of separating the water molecules into oxygen and hydrogen.

According to the present invention, the reflector 23 provided in the first and second heat collecting parts 20 and 30 collects sunlight and heats the first and second heating parts 40 and 50 with high heat. As the water circulating inside the first and second heating parts 40 and 50 is heated, the heated water is converted into high pressure steam and high pressure gas to decompose the final water molecules into oxygen and hydrogen.

The reflector 23 collects sunlight by the concave reflecting surface 24 and then heats the first and second heating units 40 and 50, and reflects the front surface of the reflecting surface 24. A metal deposition layer 25 such as aluminum, silver, and chromium, which can be increased, is coated, and a protective film 26 coated with urethane is provided on the outer circumferential surface of the metal deposition layer 25 to form a metal deposition layer 25. To protect it.

On the other hand, the present invention is subjected to a heat exchange step for compressing the high-pressure gas from which the water molecules are separated by a heat exchanger (105).

Subsequently, the present invention undergoes a filtration step in which gas other than hydrogen is released to the outside by the filtration unit 106 and only hydrogen is passed through.

In this filtration step, activated carbon, which is highly adsorptive and carbonaceous material, is porous and absorbs pigments or odors, and is used for decolorizing, purifying, and catalyzing activated carbon or in solutions and gases containing large molecules and small molecules. It consists of a molecular sieve separating the fine particles or molecules so that they are separated by filtration.

Since the present invention is to operate a system for producing energy by decomposing water molecules through solar condensation through the step of compressing the hydrogen at a high pressure to store in the storage tank 108, the compression to the storage tank 108 When the stored hydrogen is regulated by a regulator and put into an internal combustion engine, it is converted into a rotating body to operate an electric generator to obtain electricity.

In addition, the present invention can be implemented as shown in Figures 4 to 6 as a second embodiment.

That is, the operation up to the step of separating the water molecules is the same and is characterized by the following technical configuration.

In more detail, the second embodiment of the present invention is effective when the amount of sunshine is small in winter.

To this end, as shown in FIG. 6, the present invention lights a burner 80 equipped with an ignition device to a high-pressure gas discharged to the injection nozzle pipe 41 of the secondary heating unit 50, and thus, heats the tank ( 81 is heated or the heating tank 81 is heated using the 3rd and 4th heat collection parts 60 and 70, and the heating apparatus 201, the boiler 202, and the thermal current generator which are connected to the heating tank 81 ( 203, any one selected from the steam turbine 204 is driven and used.

As described above, in the second embodiment of the present invention, since the amount of sunshine is only about 4 to 5 hours in winter, the heating tank 81 cannot be heated at a high temperature, so that the hydrogen gas emitted from the burner 80 is set on fire to heat the heating tank. The heating tank 81 is heated, and thus the heating device 201 can be operated even in winter by the heating tank 81 heated in this way.

On the other hand, the solar collector 100, 200 applied to the present invention is connected to the solar cell 103 and the charging device 104, which is to supply power for driving the solar collector.

The technical idea of the system for producing energy by decomposing water molecules through solar condensation and the operation method thereof according to the present invention are actually capable of repeating the same result. Particularly, by implementing the present invention, the present invention promotes technological development and contributes to industrial development. It's worth protecting it.

1 is a method for producing energy by decomposing water molecules through solar condensation of the present invention

        A perspective view of a first embodiment of the system.

Figure 2 (a) (b) is a side view of the operating state of FIG.

3 is a block diagram of the embodiment of FIG.

Figure 4 is to decompose water molecules through solar condensation of the present invention to produce energy

        Perspective view of a second embodiment of a system.

Figure 5 (a) (b) is a side view of the operating state of FIG.

6 is a configuration diagram of the embodiment of FIG. 4.

<Explanation of symbols for the main parts of the drawings>

10: drive unit

20, 30: primary and secondary collectors

40, 50: 1st, 2nd heating part

60, 70: 3rd and 4th heat collection part

100, 200: solar collector

Claims (14)

delete Solar heat collecting device 100, 200 for producing energy through the solar light collecting is provided, the solar light collecting device 100 is provided on the upper end of the support stand 11, the first and second heat collecting unit up, down, left and right A driving unit 10 to operate; It is operated by the operation of the drive unit 10, the first and second heat collecting unit 20, 30 to collect sunlight to heat the first and second heating heating unit; A primary heating part 40 provided at the front end of the primary heat collecting part and heating the water at a high temperature in a process in which water of the water tank 101 passes through the injection nozzle pipe 41; A secondary heating unit 50 provided at the front end of the secondary heat collecting unit and generating high pressure gas by heating the high pressure steam exiting the primary heating unit to high heat again; And a hydrogen generator 90 obtaining hydrogen energy by using a high-pressure gas exiting the secondary heating unit at one end of the solar heat collector 100; decomposing water molecules through solar condensing provided with energy. In a system that The injection nozzle tube 41 between the water tank 101 and the primary heating unit 40 is provided with an electronic pump 102 for controlling the amount of water supplied to the injection nozzle tube in accordance with the temperature. A system for producing energy by decomposing water molecules through solar condensing. The method according to claim 2, The drive unit 10, A driven gear 12 fixed to an upper end of the support base 11; A rotating plate 13 arranged on an upper end of the driven gear 12 to selectively rotate with the first and second heat collecting parts; A drive motor 14 fixedly installed at an upper end of the rotating plate 13 to rotate the drive gear 15 in a state of being engaged with the driven gear; A drive cylinder 16 and an arm 17 fixed to an upper end of the rotating plate 13; A frame 22 is provided at one end of the first and second heat collecting parts, and at one end of the frame, a drive cylinder is connected to the first hinge shaft 18 and an arm is connected to the second hinge shaft 19. 22a); a system for producing energy by decomposing water molecules through solar collection. The method according to claim 3, A system for producing energy by decomposing water molecules through solar condensing, further comprising a solar tracking device 21 for tracking the sunlight in real time and operating the drive unit up, down, left, and right in the center upper portion of the frame 22. . The method according to claim 2, The first and second heat collecting unit 20, 30, It is fixed to the frame 22 to capture the sunlight, and the energy is produced by decomposing water molecules through solar condensing, characterized in that the reflector 23 made of any one selected from a metallic stainless plate and glass or mirror is provided. system. The method according to claim 5, The reflector 23, A concave reflective surface 24 is formed to collect and concentrate the sunlight, and the front surface of the reflective surface is coated with any one of the metal deposition layers 25 selected from aluminum, silver, and chromium to increase the reflectance. The outer peripheral surface of the metal deposition layer is a protective film (26) UV-treated urethane to protect the metal deposition layer; a system for producing energy by decomposing water molecules through solar condensation, characterized in that the provided. The method according to claim 2, The first and second heating (40, 50), Water molecules are collected through solar condensing, characterized in that a heating collection tank 42 wound in a spring shape is provided so that the water supplied to the injection nozzle pipe 41 is circulated in front of the first and second collection parts. A system that breaks down to produce energy. The method according to claim 2, The hydrogen generating unit 90, A heat exchanger 105 connected to one side of the secondary heating unit 50 and cooling the gas under high pressure; A filter unit connected to one side of the heat exchanger and configured to pass only hydrogen in a high pressure gas and discharge the remaining gas into the atmosphere; A compression unit 107 connected to one side of the filtration unit and compressing only hydrogen passing through the filtration unit at high pressure; And At one end of the mall compression unit, a storage tank 108 for storing compressed hydrogen and taking out as much as necessary, is provided. A system for producing energy by decomposing water molecules through solar condensing. The method according to claim 8, The filtration unit 106, A system for producing energy by decomposing water molecules through solar condensation, characterized by decolorization, purification, catalysis, activated carbon, or molecular sieves separating particulates or molecules. The method according to claim 2, The solar heat collector 100, A system for producing energy by decomposing water molecules through solar condensing, characterized in that the solar panel 103 is further provided with a storage battery 104 connected to one side to drive the solar collector. The method according to claim 2, The solar heat collecting device 200, A third and fourth collectors 60 and 70 provided on an upper end of the frame 22 provided with the first and second collectors 20 and 30; And The high pressure gas discharged to the injection nozzle pipe of the secondary heating unit is provided at the upper end of the burner 80 which is heated by the 3rd and 4th heat collection unit and connected to one end of the secondary heating unit 50. Heating tank (81) is heated by the fire by the ignition of; The system for producing energy by decomposing water molecules through solar condensation, characterized in that further provided. The method according to claim 11, At one end of the solar heat collecting device 200, any one selected from the heating device 201, the boiler 202, the thermal current generator 203, the steam turbine 204 is connected to the circulation motor, A system that produces energy by breaking down water molecules through. delete Supplying the water of the tank to the primary heating unit by pumping the water with the electronic pump; Heating the primary heating unit by solar heat of the primary collection unit, and heating the primary heating unit to 800 to 900 ° C. to generate water of a liquid passing therethrough by high pressure steam; Heating the secondary heating unit by solar heat of the secondary collecting unit, heating the secondary heating unit at 800 to 900 ° C. to generate high pressure steam passing through the high-pressure gas, and separating water molecules; A heat exchange step for compressing the high pressure gas from which the water molecules are separated; A filtration step of releasing the remaining gas except hydrogen and passing only hydrogen; In the operation method of the system for producing energy by decomposing water molecules through solar condensing through the step of compressing the hydrogen at a high pressure and then storing in a storage tank, After separating the water molecules, A heating device connected to the heating tank by heating the heating tank by lighting a burner equipped with an ignition device to the high pressure gas discharged to the injection nozzle pipe of the secondary heating section, or by heating the heating tank using the 3rd and 4th heat collection section. Operating a system for producing energy by decomposing water molecules through solar condensing, wherein any one selected from among a boiler, a thermal current generator, and a steam turbine is driven.

Images