KR20190029357A - A Power Generation System Using Thermoelectrics and Optoelectronic Generators - Google Patents

Abstract

The present invention relates to a power generation system using combined thermoelectronic and photoelectronic generators, which generates electric power by transferring a heat charge using a temperature difference. According to an embodiment, the present invention relates to a power generation system using combined thermoelectronic and photoelectronic generators capable of generating electric power by transferring a thermal charge using a temperature difference obtained by cooling sunlight and water of rivers and lakes. More specifically, the present invention relates to a fusion power generation system using thermoelectronic and photoelectronic generators, wherein a photoelectronic generator is bonded with silicon on a heat receiving plate of a thermoelectronic generator, and a buoyant body is mounted on a river or a lake as a fused element using a photoelectronic effect and a thermoelectronic effect, such that a cooling plate comes in contact with water and thus electric power is produced by solar light and heat generated thereby is cooled by the temperature of water. In addition, the present invention is a low-cost, high-efficiency power generation system which can perform cooling with water to bring the power generation efficiency close to 60%. Therefore, the present invention is a necessary invention.

Description

[0001] The present invention relates to a power generation system using a thermoelectronic generator and a photoelectric generator,

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a power generation system in which a thermoelectric element generator for generating electricity by transferring a thermal charge using a temperature difference is fused with a photoelectric generator.

For example, the present invention relates to a power generation system using a thermoelectric element generator and a photovoltaic power generation element for generating electricity by transferring heat charge using sunlight, temperature difference cooled by water in a lake and a lake.

More specifically, a fusion device using a photoelectric effect and a thermoelectric effect by adhering a photoelectric device with a silicon on a heat plate of a thermoelectric power plant, and a buoyant body mounted on a river or a lake, The present invention relates to a power generation system for generating power generated by a thermoelectric element and a photovoltaic power generation apparatus,

There are various methods of generating electricity through heat transfer. I made a gap between the heat sink and the heat sink to emit the thermoelectrons, and I applied for a patent to produce electricity with an efficiency of 40% due to the temperature difference between the heat sink and the heat sink There is a thermo-

There is a photovoltaic device that generates electricity at an efficiency of about 18% by using a photoelectric effect.

The thermoelectric device using the Peltier effect has a practical efficiency of about 5%. The thermoelectric device has a structure in which a p-type device and an n-type device are installed by manual welding. Bismuth and tellurium rare earths Since it is expensive because it is the main component and has to be made manually, there is a difficulty to use it practically,

The thermoelectric power plant can not be used for the power generation using solar light in the way of generating electricity using heat, and the photoelectric power generation method has a drawback in that the power generation effect is markedly lowered in the summer when the temperature is high.

SUMMARY OF THE INVENTION The present invention has been conceived to solve the above-described problems, and a power plant using solar light needs to be cooled, and a thermoelectric power plant requires heat and a coolant.

In order to achieve the above object, the present invention relates to a method for manufacturing a solar cell, which comprises joining a photovoltaic element and a thermoelectric power plant with silicon and a thermoelectric powder, immersing a cooling plate in water, A power generation system that cools the generated heat with water from the river or lake was constructed.

Accordingly, it is an object of the present invention to provide a highly efficient fused power generation device by fusing a power plant using solar light and heat generated thereby.

Another object of the present invention is to provide a high-efficiency power generation system that maintains a constant interval according to a change in water level and increases the power generation efficiency by taking the heat transferred to the cooling plate by the water temperature.

As described above, the power generation system in which the thermoelectric element and the optoelectronic power generator are fused generates the following effects.

1. By combining photoelectric effect and thermoelectric power generation effect, it is possible to obtain high efficiency electric energy close to about 60% of solar energy.

2. By radiating heat to water and installing it on water surface of river or lake, natural cooling can obtain high efficiency electric energy.

3. It is a friendly environment system because it does not damage forests by installing in rivers or lakes.

4. It has a strength that can withstand strong winds such as typhoons by installing horizontally.

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표시 없는 사각은 공간과 상용부품임.1 is a sectional view of a fusion device of a thermoelectric element and an optoelectronic power generator of the present invention.
Fig. 2 is a view showing the installation of a power generation system using a thermoelectric element and a photoelectric generator of the present invention. Fig.
DESCRIPTION OF REFERENCE NUMERALS
01) Thermoelectric power generating element 11) Silicon junction body 22) Photoelectric element
33) Frequency oscillation circuit 55) Cooling plate 61) Linear bearing
63) Cover 65) Ground 67) Water
69) Buoyant body 77) Guide rod 99) Sun
* arrow(

) Is the direction of movement of the column. Arrow (→) indicates the movement direction of the electron.
Square without mark is space and commercial parts.

The constitutional state of the present invention will be described in detail with reference to the drawings shown in FIGS. 1 and 2.

The characteristics of the opto-electronic device 22 are already well-known, and the description of the effect and the power generation scheme is well known and omitted. The explanation of the thermoelectric generator 01 is based on the patent application 10-2017- 0097763, incorporated herein by reference in its entirety.

The heat sink of the thermoelectric power generating element 01 and the opposite surface of the light collecting plate of the photoelectric element 22 are closely attached to each other by the silicon junction body 11 and the cooling plate 55 is provided on the heat radiating plate side of the thermoelectric power generating element 01, Thereby completing the power generation element.

Providing a buoyancy body (69) on a cooling plate (55) of said fusion power plant; A linear bearing (61) is built in the buoyant body (69) and fixed with a cover (63); A guide rod (77) is fitted in a circular hole of the linear bearing (61); When one side of the guide rod 69 is fixed to the ground 65, the construction of the present invention is completed.

At this time, the description of the contents of the known technology including the power generation algorithm is omitted.

The operation state of the present invention will now be described in detail with reference to the drawings shown in FIGS. 1 and 2.

When the light of the sun 99 reaches the light collecting plate of the photoelectric element 22, the photoelectrons to the photoelectric effect are separated and generate electricity, and the heat is transmitted through the rear surface and the silicon junction body 11, When the electric field is formed by the frequency oscillating circuit 33 in the process of passing through the plate and the rear cooling plate 55, the thermoelectrons move and generate electricity from the thermoelectric power generating device 01. [

Then, the wing portion of the cooling plate 55 is locked to the water 67, and the heat generated by the sun 99 light is absorbed by the water.

At this time, the photoelectric effect generated by the light generated by the sun 99 theoretically causes the electric energy to be generated with a power generation effect of 20%, and the electric energy generated due to the temperature difference between the generated heat and water The efficiency of the fusion power plant generates electric energy close to about 60% of the energy of the sunlight.

In addition, since the installation place is installed on the surface of the river and the lake, it can be installed without damaging the forest, and since the installed surface is installed horizontally, it is advantageous in that it is not damaged even in a strong wind like a typhoon.

Therefore, the invention can be said to be a necessary invention since it is an invention capable of maximizing the efficiency by minimizing the installation cost.

It is to be understood that the present invention is not limited to the above-described embodiment, but may be embodied in the forms of the present invention as set forth in the appended claims. It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the invention.

Claims (5)

The heat sink of the thermoelectric power generating element 01 and the opposite surface of the light collecting plate of the photoelectric element 22 are disposed in close contact with the silicon junction body 11 and the cooling plate 55 is provided on the heat radiating plate side of the thermoelectric power generating element 01, Means constituting the power generating element
A floating body (69) is provided on the cooling plate (55); A linear bearing (61) is built in the buoyant body (69) and fixed with a cover (63); A guide rod (77) is fitted in a circular hole of the linear bearing (61); Wherein the thermoelectric power generation element and the photovoltaic power generation element are fused together by fixing one side of the guide rod (69) to the ground (65) and installing the cooling plate (55) in contact with the water (67). The power generation system according to claim 1, wherein the fusion-type power generation elements are arranged at regular intervals. The power generation system according to claim 1, wherein the silicon junction body (11) is replaced by a heat transfer powder, and a thermoelectric power generation element and a photovoltaic power generation element are fused. The power generation system according to claim 1, characterized in that the water (67) in the valley flows along the channel and is brought into contact with the cooling plate (55). The power generation system according to claim 1, wherein the cooling plate (55) is made of pure copper, aluminum, magnesium or the like, and a photovoltaic power generation element is fused with the photovoltaic power generation element.

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