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| Open Access |
DOI:
https://doi.org/10.37547/tajas/Volume02Issue10-21
Transparent Surface Lens Of Low-Temperature Solar Devices
Jo'raev M.Q , Bukhara Engineering Technological Institute, Bukhara, Uzbekistan Muzaffarov F.F , Bukhara Engineering Technological Institute, Bukhara, Uzbekistan Rustamov S.Sh , Bukhara Engineering Technological Institute, Bukhara, Uzbekistan Timirov H.N , Bukhara Engineering Technological Institute, Bukhara, Uzbekistan Yakubov P,E , Bukhara Engineering Technological Institute, Bukhara, UzbekistanAbstract
The transparent surface of low-temperature solar devices is insulated with glass or polyethylene. Ensuring more light penetration from such surfaces ensures efficient operation of the device, in other words, the device has a high efficiency. Selecting the device design to allow most of the sunlight falling on the transparent surface to enter the device, keeping the transparent surface clean, reducing the angle of incidence of the light to small values, and so on. In most cases, it depends on the parameters. In this article, we analyze the theoretical and practical solutions of work related to the selection and optimization of the angle of incidence of light on the transparent surface of the device to increase the incidence of sunlight during the day. Light absorption, rotation and absorotion of light into low- temperature solar cells. Mathematical analysis and formulas are given.
Keywords
Light wave length,, effective return coefficient,
References
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E.. A. Krasnoshchekov, A.S. Sukomel. “Zadachnik po teplopredache” Moscow “Energiya”. 1980.
Use of solar energy. 1-collection under the editorship of d.t.nA.I Baumana.Moscow “Energy”. 1957.
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