KR101019275B1 - Condensing Type Solar Heat And Ray Cogeneration System - Google Patents

Abstract

The present invention relates to a condensing type solar heat and a solar composite power generation apparatus equipped with a light-transmitting collection tank, the condensing lens 10 for condensing sunlight, the inlet pipe 21 and the outlet pipe 22 in communication with the condensing It is provided in the lower portion of the lens 10 and the heat collection tank 20 made of a light-transmissive material to move the heat-transfer refrigerant in the inner cavity (cavity), and a plurality of solar cells are provided below the heat collection tank 20 After entering the liquid state into the heat collecting tank 20 through the solar panel 30 and the inlet pipe 21 to be heated by the light passing through the condenser lens 10 in a state of higher temperature than the entry state Solar thermal power generation means that is provided in the heat transfer refrigerant 40 entering the outlet pipe 22 and the outlet pipe 32 flowing in a state where the high temperature heat transfer refrigerant is a gas or a liquid, and generates electricity using the heat transfer refrigerant. 50 is a heat-transfer refrigerant characterized in that it comprises a The present invention relates to a condensing solar cell and a photovoltaic composite power generation device equipped with a light-transmitting heat collecting tank.

Solar heat, solar power, power generation, thermoelectric element, turbine, condenser lens

Description

Condensing type solar heat and photovoltaic combined cycle power generation equipment with transmissive heat collection tank using heat transfer refrigerant {Condensing Type Solar Heat And Ray Cogeneration System}

The present invention collects the heat of the collected light entering the solar panel in the condensing type solar cell device using a condenser lens to generate solar heat and send the deprived light to the solar panel to prevent the temperature rise of the solar panel to prevent the solar cell The present invention relates to a condensing solar cell and a photovoltaic combined cycle power generation apparatus equipped with a light-transmitting collection tank capable of increasing photovoltaic power generation efficiency.

In order to shorten the period in which the cost required for manufacturing a solar cell module can be recovered as a power generation output and to reduce the cost of a power generation system using a solar cell, solar light is collected by using a condensing lens. In recent years, research has focused on concentrating solar cells that can increase the amount of incident light into a cell and reduce the use area of expensive solar cells. However, the solar cell using the silicon device has a property that the amount of power generation is significantly reduced when the temperature rises.

Therefore, the conventional light concentrating solar cell apparatus has a problem that the temperature rise of the solar cell is remarkable as well as the light condensation increases, and thus it is difficult to perform sufficient cooling. Therefore, in order to cool the solar cell more efficiently and effectively, In order to suppress the decrease in the amount of power generated by cooling the cooling system, a technique for improving its durability has been studied.

(This result is a research result of future technology development for medium-sized devices, which was made by the Ministry of Knowledge Economy.)

The present invention collects the heat of the collected light entering the solar panel in the condensing type solar cell apparatus using a condenser lens using a heat-transfer refrigerant to generate solar heat and send the heat deprived light to the solar panel temperature of the solar panel An object of the present invention is to provide a condensing solar power and a solar power generation apparatus equipped with a light-transmitting collection tank using a heat-transfer refrigerant that can increase the photovoltaic power generation efficiency of a solar cell.

In order to achieve the object of the present invention, a condensing solar cell and a solar complex power generation apparatus including a light-transmitting heat collecting tank using a heat-transfer refrigerant according to the present invention include a condensing lens 10 for condensing sunlight;

A heat collecting tank 20 in communication with the inflow pipe 21 and the outflow pipe 22 and formed at a lower portion of the condenser lens 10 and made of a light-transmissive material in which a heat-transfer refrigerant is moved to an internal cavity;

A solar panel 30 including a plurality of solar cells under the collection tank 20,

After entering the liquid state into the collecting tank 20 through the inlet pipe 21 and heated by the light passing through the condenser lens 10 to the outlet pipe 22 in a state that is higher than the entry state An electrothermal refrigerant 40 to be introduced,

It is configured to include a solar heat generating means 50 is provided in the outlet pipe 32 flowing in the state where the high-temperature heat-heating refrigerant is a gas or a liquid.

In the condensing solar cell and the solar complex power generation apparatus provided with the light-transmitting collection tank according to the present invention, the focal point F of the light collected by the condensing lens 10 is a cavity area of the collection tank 20. It is preferable that the heating of the cooling water formed in the flowing through the collection tank 20 is promoted.

According to the present invention solves the problems of the prior art, in the condensing type solar cell device using a condensing lens to collect the heat of the collected light entering the solar panel to the solar power generation and the heat deprived light to the solar panel Provided is a condensing solar power and a solar composite power generation apparatus having a light-transmitting collection tank capable of preventing the temperature rise of the solar panel and increasing the solar power generation efficiency of the solar cell.

Hereinafter, a condensing solar cell and a solar complex power generation apparatus equipped with a light-transmitting collection tank according to the present invention will be described in detail according to an embodiment shown in the accompanying drawings. 1 is a cross-sectional view of a condensing solar cell and a solar complex power generation apparatus equipped with a heat collecting tank using a heat conductive refrigerant according to an embodiment of the present invention, and FIG. 2 is a heat conductive material according to a second embodiment of the present invention. It is a cross-sectional block diagram of the condensing solar cell and the solar power generating apparatus with a collection tank using a refrigerant.

In the present invention, the refrigerant refers to a substance (or fluid) that absorbs heat included in light and changes to a liquid or gas state according to temperature, and does not generally mean a refrigerant circulating in an air conditioner. In the present invention, the heat-transfer refrigerant refers to a medium or a fluid having excellent light transmittance and excellent heat conductivity among media capable of flowing a closed path of a tube or a predetermined shape in a gas or liquid state. The heat-transfer refrigerant of the present invention does not necessarily mean a material known as of the filing date, and is a concept including a fluid having excellent heat absorption and excellent light permeability compared to cooling water, which may be developed in the future. It is natural that existing fluids can be used as the heat transfer refrigerant of the present invention.

As shown in FIG. 1, the condensing solar and solar power generation apparatuses including the condensing tank using the heat-conducting refrigerant according to an embodiment of the present invention include a condensing lens 10 and a condensing material composed of a light-transmitting material ( 20) and the solar panel 30, the heat-conducting refrigerant 40 and the solar power generating means (50).

As shown in FIG. 1, the condenser lens 10 condenses sunlight, and a conventional convex lens is preferable. The collection tank 20 is in communication with the inlet 21 and the outlet 22, is provided in the lower portion of the condenser lens 10, the heat transfer refrigerant (for example, cooling water) is moved to the inner cavity (transmissive material) It consists of.

The solar panel 30 is provided below the collection tank 20 and includes a plurality of conventional solar cells. The heat conductive refrigerant 40 enters the liquid collection tank 20 through the inflow pipe 21 into a liquid state and is heated by light passing through the condensing lens 10 to be in a higher temperature than the entrance state. Enter the outlet pipe (22).

The solar power generating means 50 is provided in the outlet pipe 32 flowing in a state where the high temperature heat conductive refrigerant is a gas or a liquid, and generates power using the heat conductive refrigerant. In one embodiment of the present invention, as shown in FIG. 1, the solar power generating means 50 may be one selected from the thermoelectric element 51 and the turbine 55. The solar thermal power generation means 50 is a thermoelectric element 51, the high temperature heat transfer refrigerant flowing through the outlet pipe 32 may be in a liquid or gaseous state or a state in which gas and liquid are mixed. As shown in FIG. 2, the solar power generating unit 50 is a turbine 55, and the high temperature heat transfer refrigerant flowing through the outlet pipe 32 may be input to the turbine 55 in a gas state.

As shown in FIG. 1, the material of the heat collecting tank 20 is glass, a part or all of the heat conductive refrigerant is vaporized in the heat collecting tank 20, and the collection of the vaporized refrigerant generated in the heat collecting tank 20 is collected. In order to facilitate this, the inlet of the outlet pipe 22 is preferably located above the collection tank 20.

As shown in FIG. 1, in the condensing type solar heat and solar power generation apparatus with a heat collecting tank using a heat conductive refrigerant according to an embodiment of the present invention, the focus of light collected by the condensing lens 10 is focused. (F) is preferably formed in a cavity region of the collection tank 20 to facilitate heating of the heat-transfer refrigerant 40 flowing through the collection tank 20.

As shown in FIG. 1, in the condensing solar and solar power generation apparatuses having a heat collecting tank using a heat transfer refrigerant according to an embodiment of the present invention, a reflecting mirror 25 is formed inside the heat collecting tank 20. It may be further provided. The reflector 25 guides the light incident to the reflector 25 downward, and the reflector 25 heated by the incident light transfers heat to the electrothermal refrigerant flowing through the surroundings.

In the present invention, the heat conductive refrigerant may be cooling water (H ₂ O). At this time, the cooling water is preferably designed to be vaporized in the collection tank 20 to be changed into water vapor.

Although the present invention has been described in connection with the above-mentioned preferred embodiments, the scope of the present invention is not limited to these embodiments, and the scope of the present invention is defined by the following claims, and equivalent scope of the present invention. It will include various modifications and variations belonging to.

The reference numerals set forth in the claims below are merely to aid the understanding of the present invention, not to affect the interpretation of the scope of the claims, and the scope of the claims should not be construed narrowly.

1 is a cross-sectional view of a condensing solar cell and a photovoltaic combined cycle power generation apparatus equipped with a collection tank using a heat transfer refrigerant according to an embodiment of the present invention.

2 is a cross-sectional view of a condensing solar cell and a solar combined cycle power generation apparatus equipped with a heat collection tank using a heat conductive refrigerant according to a second embodiment of the present invention.

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

10: condenser lens

20: collection tank

21: inlet pipe

22: outflow pipe

25: reflector

30: solar panel

40: electrothermal refrigerant

50: solar power generation means

51: thermoelectric element

52: turbine

Claims (7)

A condenser lens 10 for condensing sunlight; A heat collecting tank 20 in communication with the inflow pipe 21 and the outflow pipe 22 and formed at a lower portion of the condenser lens 10 and made of a light-transmissive material in which a heat-transfer refrigerant is moved to an internal cavity; A solar panel 30 including a plurality of solar cells under the collection tank 20, After entering the liquid state into the collecting tank 20 through the inlet pipe 21 and heated by the light passing through the condenser lens 10 to the outlet pipe 22 in a state that is higher than the entry state An electrothermal refrigerant 40 to be introduced, The solar heat generating means 50 is provided in the outlet pipe 22 flowing in the state in which the high temperature heat conductive refrigerant is a gas or a liquid, and generates electricity using the heat conductive refrigerant. Condensing solar and photovoltaic combined cycle power generation device with a light-transmitting collection tank. The method of claim 1, The focal point F of light collected by the condenser lens 10 is formed in a cavity area of the condenser 20 to facilitate heating of the heat-transfer refrigerant flowing through the condenser 20. Condensing solar and photovoltaic combined cycle power generation apparatus equipped with a light-transmitting collection tank using a heat transfer refrigerant. The method of claim 1, The solar power generating means 50 is a thermoelectric element 51, Condensing type with a light-transmitting heat collection tank using a heat-transfer refrigerant is characterized in that the high-temperature heat-transfer refrigerant flowing through the outlet pipe 22 is one of a liquid or gas state, or a mixture of gas and liquid. Solar and photovoltaic combined cycle device. The method of claim 1, The solar power generating means 50 is a turbine 55, Condensing solar and photovoltaic combined cycle power generation apparatus equipped with a transparent heat collection tank using a heat-transfer refrigerant, characterized in that the high-temperature heat-transfer refrigerant flowing through the outlet pipe (22) is input to the turbine (55). The method of claim 1, The material of the collection tank 20 is glass, A part or all of the heat conductive refrigerant is vaporized in the heat collecting tank 20, In order to facilitate the collection of vaporized refrigerant generated in the collection tank 20, the inlet of the outlet pipe 22 is located in the cavity of the collection tank 20, characterized in that the heat transfer refrigerant Condensing solar and photovoltaic combined cycle power unit equipped with a light-transmitting collection tank using. The method of claim 1, A reflector 25 is further provided inside the collection tank 20, The light incident to the reflector 25 is induced downward, The reflector 25 heated by the incident light transmits heat to the heat-transfer refrigerant flowing around the condensing-type solar and photovoltaic combined cycle apparatus equipped with a light-transmitting collection tank using the heat-transfer refrigerant. The method of claim 1, The heat conductive refrigerant is cooling water (H ₂ O), Condensing solar and photovoltaic combined cycle power generation apparatus equipped with a light-transmitting heat collection tank using a heat-transfer refrigerant, characterized in that it is vaporized in the heat collection tank 20 to change into water vapor.

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