Thermal performance of three concentrating collectors with bifacial PV cells. Part II – parametrical study

Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy Pub Date : 2024-02-07 DOI:10.1177/09576509241231852

M. Lança, João Gomes, Diogo Cabral, S. Hosouli

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Abstract

One of the problems in using PV cells to extract energy from sunlight is the temperature effect on PV cells. As the solar panel is heated, the conversion efficiency of light to electrical energy is diminished. Moreover, successive temperature elevations can cause dilatations in the array of cells which may also contribute to the degradation of the receiver. Some of the operating temperature mitigation approaches may include air-flow ventilation. In this study, data obtained by experimental and numerical simulations of a collector with bifacial PV cells is compared to the expressions found in the literature for the estimation of the heat transfer coefficient. Forced ventilation was applied to the studied collector as it accounts for much better heat dissipation. A new correlation for the estimation of the heat transfer coefficient is developed for such a geometry, for inlet velocities ranging between 3 and 8 m/s. Values of heat transfer coefficient estimated in the present work have been compared with studies of other researchers.

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采用双面光伏电池的三种聚光集热器的热性能。第二部分--参数研究

使用光伏电池从太阳光中提取能量的问题之一是温度对光伏电池的影响。随着太阳能电池板被加热，光能到电能的转换效率会降低。此外，连续的温度升高会导致电池阵列膨胀，这也会造成接收器性能下降。一些缓解工作温度的方法可能包括气流通风。本研究将双面光伏电池集热器的实验数据和数值模拟数据与文献中用于估算传热系数的表达式进行了比较。所研究的集热器采用了强制通风，因为强制通风的散热效果更好。针对这种几何形状，在入口速度介于 3 至 8 米/秒之间的情况下，开发了一种估算传热系数的新关联。本研究中估算的传热系数值已与其他研究人员的研究进行了比较。

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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Proceedings of the Institution of Mechanical Engineers, Part A: Journal of Power and Energy

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