Numerical Analysis and Optimization of Area Contribution of The PV Cells in the PV/T Flat-Plate Solar Air Heating Collector

Journal of Solar Energy Research Updates Pub Date : 2019-01-17 DOI:10.31875/2410-2199.2019.06.5

Y. Nassar, Samer Alsadi, K. Ali, A. Yousef, A. Massoud

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引用次数: 13

Abstract

This paper presents a practical design of combination solar photovoltaic panel (PV) and an ordinary flat-plate air heating solar collector (FPSC. (The offered collector generated both electrical and thermal power for many applications such as (drying, heating, cooling, etc...). The PV cells are placed in the entrance of the (FPSC), the design avoids the temperature increasing of the PV. In this paper the photovoltaic thermal (PV/T) collector energy analysis were carried out. A mathematical model has been built in order to determine the optimum contribution ratio of the PV cells in the offered collector. The model takes into account the variation of the electrical characteristics with solar radiation and the PV cell's temperature. The obtained results have shown that for a (PV/T) collector of 3m long, the maximum energy extracted from the collector, when the length of the PV panel is 2.4 m and the rest of the collector is ordinary FPSC. Furthermore, the electrical efficiency and the thermal efficiency of the PV/T system was found to be higher than that of the conventional separated systems.

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PV/T平板太阳能空气加热集热器中光伏电池面积贡献的数值分析与优化

本文介绍了一种太阳能光伏板与普通平板空气加热太阳能集热器组合的实用设计。(提供的集热器为许多应用(干燥，加热，冷却等)产生电力和热能。)光伏电池放置在FPSC的入口，避免了光伏电池的温度升高。本文对光伏热(PV/T)集热器进行能量分析。为了确定光伏电池在集热器中的最佳贡献比，建立了数学模型。该模型考虑了电学特性随太阳辐射和光伏电池温度的变化。所得结果表明，对于3m长的(PV/T)集热器，当光伏板长度为2.4 m，集热器其余部分为普通FPSC时，从集热器中提取的能量最大。此外，发现PV/T系统的电效率和热效率高于传统的分离系统。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal of Solar Energy Research Updates

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