High-efficiency high-energy light photoelectric conversion material and manufacturing method thereof
A photoelectric conversion material and high-efficiency technology, applied in the field of solar photoelectric materials, can solve problems such as energy waste, unsuitable high temperature difference, and inconvenient transportation
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Embodiment 1
[0027]A high-efficiency and high-energy light photoelectric conversion material, including a glass cover 1, a solar cell 2 whose upper surface is tightly glued to the bottom of the glass cover 1 by EVA, and a mounting groove 3 for fixing the glass cover 1 and the solar cell 2, characterized in that : the glass cover plate 1 is a double-layer glass, wherein the lower layer of glass is a high light-density glass (high light) with a refractive index nd value of 1.80-1.81 made of lead oxide, silicon dioxide, sodium carbonate, potassium nitrate, and strontium oxide as a raw material The formula of the dense glass is based on the existing technology, and the dosage and purity of lead oxide, sodium carbonate, potassium nitrate, and strontium oxide are adjusted to increase the refractive index and reduce the light transmittance, so a special description is made), the upper layer of glass is the refractive index Low optical density glass with an nd value of 1.50-1.53 (the formulation ...
Embodiment 2
[0044] The whole is consistent with Example 1, the difference is:
[0045] 1) Preparation of lower vitreous body
[0046] ① Prepare the following raw materials by weight: lead oxide 73Kg, silicon dioxide 26Kg, sodium carbonate 1.4Kg, potassium nitrate 2.2Kg, strontium oxide 0.4Kg, all raw materials are analytically pure;
[0047] 2) Preparation of upper vitreous body
[0048] ①Prepare the following raw materials in terms of molecular weight: 85Kg of silicon tetrafluoride, 3Kg of sulfur hexafluoride, 3Kg of dicarbon tetrafluoride, 8Kg of boron oxide, sufficient amount of high-purity oxygen with a purity of not less than 99.99%, defoaming Dosage 0.2Kg;
[0049] The present invention is only part of the structure for light energy absorption, and needs to be matched with other matching structures (such as cables, aluminum alloy frames, rotating structures, etc.) The lower layer is 87.5%), and the average absorption rate of light energy is 34.1%.
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