Highly effective solar energy electrooptical effect glass

A technology of photoelectric effect and solar energy, which is applied in the field of high-efficiency solar photoelectric effect glass, can solve the problems of not meeting the performance requirements of solar cell glass substrates, poor self-cleaning performance, light transmission and non-perspective, etc., to avoid thermal attenuation and self-cleaning Strong ability and good durability

Active Publication Date: 2006-07-26
CHANGZHOU ALMADEN
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Ordinary glass is difficult to do because of its high iron content, which cannot meet the performance requirements as a glass substrate for solar cells; people try to use an ordinary ultra-clear glass, which has a low iron content, but it is Produced by the float process, the surface is smooth and clean, and has the disadvantage of high reflectivity, which has certain shortcomings as a solar cell glass substrate; there is also an ordinary ultra-clear glass, which is produced by the rolling process. The disadvantage is that light is not transparent, and it is also disadvantageous for solar cell glass substrates
At present, the best performance is an ultra-white glass with evenly distributed dot patterns on the surface. It has low iron content and good refraction, but its self-cleaning performance is poor.
In addition to the above-mentioned defects, the above-mentioned several glass substrates all have the problem of being difficult to clean

Method used

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Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0008] A high-efficiency solar photoelectric effect glass, which includes a glass substrate and a coating coated on the glass substrate, the coating on the glass substrate is composed of zirconia and magnesium fluoride, and their weight percentage is zirconia 25%, magnesium fluoride 75%.

Embodiment 2

[0010] A high-efficiency solar photoelectric effect glass, which includes a glass substrate and a coating coated on the glass substrate, the coating on the glass substrate is composed of zirconia and magnesium fluoride, and their weight percentage is zirconia 38%, magnesium fluoride 62%.

Embodiment 3

[0012] A high-efficiency solar photoelectric effect glass, which includes a glass substrate and a coating coated on the glass substrate, the coating on the glass substrate is composed of zirconia and magnesium fluoride, and their weight percentage is zirconia 30%, magnesium fluoride 70%.

[0013] In each of the above-mentioned embodiments, ultra-white glass with low iron content, good perspective, and evenly distributed dot patterns on the surface can be selected, and the two components of zirconia and magnesium fluoride are hot-melted and mixed according to the proportions in the above-mentioned formulations. , to make a coating, use a special process to spray the coating on the ultra-white glass, and then bake it at 300 ° C for 20 minutes, a silicon-oxygen bond is formed between the coating and the glass, so that the two are firmly integrated .

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Abstract

The invention relates to a glass for photovoltaic solar energy conversion, which comprises glass substrates and coatings thereon, the coatings comprise 25-38 wt% of zirconium oxide and 62-75 wt% of magnesium fluoride. The advantages of the invention includes high light transmittance ratio, strong cleaning capability, longer operating life, and antibiotic and far-infrared functions.

Description

technical field [0001] The invention relates to a solar photoelectric conversion glass, in particular to a high-efficiency solar photoelectric effect glass that can be applied to solar cells. Background technique [0002] At present, the known photoelectric conversion of solar energy depends on the silicon wafer in the solar cell module, and the silicon wafer has a good light absorption effect. With the continuous improvement of the solar cell module, the photoelectric conversion efficiency of the silicon wafer in the solar cell module is The current production level has reached the limit, and it has become a difficult problem to improve the photoelectric conversion efficiency of solar cells. At the same time, since the workplaces of solar cells are mostly installed outdoors in harsh environments, the surface of solar cell modules is easily dirty, and it is difficult to clean after being dirty. One of the methods we know to solve the photoelectric conversion efficiency of s...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): C03C17/23C03C4/00
Inventor 林金锡
Owner CHANGZHOU ALMADEN
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