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Heat-dissipating glass bottom plate of high-magnification concentrating photovoltaic power generation module receiver and preparation method thereof

A photovoltaic power generation and glass bottom plate technology, applied in photovoltaic power generation, circuits, electrical components, etc., can solve problems such as insufficient light transmittance, insufficient whiteness, easy deformation of glass patterns, etc., and achieve high glass light transmittance, reasonable cooling, The effect of improving power generation efficiency and cost performance

Inactive Publication Date: 2017-03-01
SUNCORE PHOTOVOLTAIC TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the previous modules used flat glass, and the radiation heat dissipation of the glass bottom plate is related to the shape and area of ​​the glass surface. The heat dissipation performance of the glass bottom plate of this new module receiver needs to be further improved.
[0004] For the solar heat dissipation glass base plate, there are higher requirements, such as higher glass whiteness to improve the light transmittance of the glass, etc., and in order to make the heat dissipation glass base plate obtain better heat dissipation function, so as to increase the power of the power generation module , the present invention first proposes a glass bottom plate with a microstructure on the surface. The rolling preparation method of ordinary glass disclosed in the prior art is not suitable for solar glass with patterns on the surface. Insufficient light transmittance, etc.

Method used

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  • Heat-dissipating glass bottom plate of high-magnification concentrating photovoltaic power generation module receiver and preparation method thereof
  • Heat-dissipating glass bottom plate of high-magnification concentrating photovoltaic power generation module receiver and preparation method thereof
  • Heat-dissipating glass bottom plate of high-magnification concentrating photovoltaic power generation module receiver and preparation method thereof

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0043] In this embodiment, a heat dissipation glass bottom plate of a receiver of a high-power concentrating photovoltaic power generation module, the surface of the heat dissipation glass bottom plate in contact with the air is composed of an array of polyhedron geometric shapes arranged according to certain rules. The polyhedron is a pyramid-shaped tetrahedron, arranged regularly in two dimensions to form the contact surface between the heat-dissipating glass bottom plate and the air (such as figure 2 mentioned).

[0044] If the base is a square with side length 2a and the height of the pyramid is b,

[0045] Then the effective heat dissipation area of ​​the tetrahedron of the pyramid is:

[0046] Its multiplier than the base area of ​​the tetrahedron is:

[0047] When b=a, When b=2a,

[0048] The design specification of the glass backplane in this embodiment is 60x60x3.2mm, the zigzag design size is a=b=1mm, and the natural convection coefficient of the air is 5-2...

Embodiment 2

[0059] In this embodiment, a heat dissipation glass bottom plate of a receiver of a high-power concentrating photovoltaic power generation module, the surface of the heat dissipation glass bottom plate in contact with the air is composed of an array of polyhedron geometric shapes arranged according to certain rules. The polyhedron is a pyramid-shaped trihedron, arranged regularly in two dimensions to form the contact surface between the heat dissipation glass bottom plate and the air (such as image 3 mentioned).

[0060] If the base is an equilateral triangle with side length 2a and the height of the triangular pyramid is b,

[0061] Then the effective heat dissipation area of ​​the trihedron of the triangular pyramid is:

[0062] Its multiplier than the base area of ​​the triangular pyramid is:

[0063] When b=a, M=2; when b=2a,

[0064] The design specification of the glass backplane in this embodiment is 60x60x3.2mm, the zigzag design size is a=b=1mm, the air natu...

Embodiment 3

[0073] In this embodiment, a heat dissipation glass bottom plate of a receiver of a high-power concentrating photovoltaic power generation module, the surface of the heat dissipation glass bottom plate in contact with the air is composed of an array of polyhedron geometric shapes arranged according to certain rules. The polyhedron is a zigzag dihedron, arranged regularly in one dimension to form the contact surface between the heat dissipation glass bottom plate and the air (such as Figure 4 mentioned).

[0074] If the side length of the base is 2a, and the sawtooth height is b,

[0075] Then the effective heat dissipation area of ​​the zigzag dihedron is:

[0076] Its multiplier than the base area of ​​the one-dimensional zigzag is:

[0077] When b=a, When b=2a,

[0078] The design specification of the glass backplane in this embodiment is 60x60x3.2mm, the zigzag design size is 2a=b=1.2mm, the natural convection coefficient of the air is 15(W / ㎡*K); the chip heat i...

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Abstract

The invention discloses a radiating glass base plate of a high concentration photovoltaic power generation module receiver and a preparation method thereof, and belongs to the technical field of high concentration solar photovoltaic power generation. The surface, making contact with the air, of the radiating glass base plate is formed by polyhedron geometrical shape arrays which are arrayed according to a certain rule. The preparation method includes the steps of raw material selection, fusion, calendaring molding and annealing. According to the step of calendaring molding, a cooling air opening is formed in a discharging opening of molten glass, the air opening blows air to the middle of the molten liquid of the discharging opening, and intaglio patterns formed by the polyhedron geometrical shape arrays which are arrayed according to the certain rule are engraved on the surface of a calendaring roller. According to the step of annealing, an annealing furnace comprises an annealing furnace front area A, an annealing area B, an annealing rear area C, a heated air circulation direct cooling area Ret and a normal temperature area F. An area D is arranged between the annealing rear area C and the heated air circulation direct cooling area Ret. An area E is arranged between the heated air circulation direct cooling area Ret and the normal temperature area F. No heating and cooling device is arranged in the area D and the area F. By means of the radiating glass base plate of the high concentration photovoltaic power generation module receiver and the preparation method thereof, the radiating capacity of the glass base plate can be improved, so that the power generation efficiency is improved, and the surface patterns of the glass base plate prepared through the preparation method are not deformed.

Description

technical field [0001] The invention relates to the technical field of high-power concentrating solar photovoltaic power generation, and more specifically, to a heat-dissipating glass bottom plate of a high-power concentrating photovoltaic power generation module receiver and a preparation method thereof. Background technique [0002] Solar energy utilization is an important new energy source. It is generally believed that high-power concentrating photovoltaic power generation technology consists of three key technologies: solar cell chip technology, high-power concentrating technology and sun tracking technology. However, there is another important technology---the heat dissipation of the battery chip is usually neglected. Module miniaturization is one of the current design trends of high-power concentrated photovoltaic power generation modules. The aperture and focal length of this module unit lens are small (within 100mm), and while maintaining a certain geometric conce...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): H01L31/052H01L31/18
CPCH01L31/0521H01L31/18Y02E10/50Y02P70/50
Inventor 廖廷俤彭先德黄超
Owner SUNCORE PHOTOVOLTAIC TECH
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