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Performance Improvement Study of Linear Photovoltaic Systems With Concentration of Solar Radiation

Performance Improvement Study of Linear Photovoltaic Systems With Concentration of Solar Radiation

Petr Alexandrovich Nesterenkov, Alexander Gennadievich Nesterenkov
Copyright: © 2020 |Pages: 27
ISBN13: 9781522594208|ISBN10: 1522594205|ISBN13 Softcover: 9781522594239|EISBN13: 9781522594215
DOI: 10.4018/978-1-5225-9420-8.ch007
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MLA

Nesterenkov, Petr Alexandrovich, and Alexander Gennadievich Nesterenkov. "Performance Improvement Study of Linear Photovoltaic Systems With Concentration of Solar Radiation." Handbook of Research on Energy-Saving Technologies for Environmentally-Friendly Agricultural Development, edited by Valeriy Kharchenko and Pandian Vasant, IGI Global, 2020, pp. 164-190. https://doi.org/10.4018/978-1-5225-9420-8.ch007

APA

Nesterenkov, P. A. & Nesterenkov, A. G. (2020). Performance Improvement Study of Linear Photovoltaic Systems With Concentration of Solar Radiation. In V. Kharchenko & P. Vasant (Eds.), Handbook of Research on Energy-Saving Technologies for Environmentally-Friendly Agricultural Development (pp. 164-190). IGI Global. https://doi.org/10.4018/978-1-5225-9420-8.ch007

Chicago

Nesterenkov, Petr Alexandrovich, and Alexander Gennadievich Nesterenkov. "Performance Improvement Study of Linear Photovoltaic Systems With Concentration of Solar Radiation." In Handbook of Research on Energy-Saving Technologies for Environmentally-Friendly Agricultural Development, edited by Valeriy Kharchenko and Pandian Vasant, 164-190. Hershey, PA: IGI Global, 2020. https://doi.org/10.4018/978-1-5225-9420-8.ch007

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Abstract

A new type of linear cooled photodetectors is considered, of which in the focal region of the optical concentrator mirrors is installed an array of solar cells operating with the low-ratio solar concentration. This work is focused on the theoretical and experimental substantiation of the efficiency increase of photodetectors under conditions of an optimal combination between solar radiation concentration and heat transfer intensity of photovoltaic cells with heat carriers. The problem of obtaining a high temperature liquid due to the limitations of solar cells is solved by organizing the flow of fluid within the thermal collector channels in the focal region of an additional optical concentrator. A mathematical model of engineering characteristic calculation of the Ʌ - shaped photodetectors and cost calculation of electrical and thermal energy generation is presented. The research results are used in the development of industrial prototypes of photodetectors with a concentration of solar radiation and low production costs.

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