INVESTIGATION OF HYBRID PHOTOVOLTAIC /THERMAL SOLAR SYSTEM PERFORMANCE UNDER IRAQ'S CLIMATE CONDITIONS

Kufa Journal of Engineering Pub Date : 2024-02-02 DOI:10.30572/2018/kje/150101

Raad H. Abed, Nabeel A. Ghaydh

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Abstract

The research investigates the use of fins fastened to a solar panel's rear surface for passive cooling. The research compared solar modules with air cooling against modules with connected fins acting as a heat sink. The comparison was based on the former. The research studies the cooling of modules with fins using two different types of air: ventilation air and still air. By comparing the heat transmission by photovoltaic panels with and without fins, the research sought to analyses the effects of the environment and solar radiation on the performance of solar cells. The inquiry was done hypothetically. According to the findings, using fins for cooling reduced cell temperature and improved electrical and thermal efficiency. The estimated performance values of the PVT solar cell obtained by using the COMSOL program and the experimental measurements carried out during the daytime were reasonably in accord. The biggest reduction in cell temperature is (3.7ºC at noon), while the greatest increases in electrical and thermal efficiency are (16.54% and 58.3%, respectively). There is good agreement between experimental and numerical results.

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伊拉克气候条件下的光伏/热混合太阳能系统性能调查

该研究调查了利用固定在太阳能电池板后表面的散热片进行被动冷却的情况。研究比较了使用空气冷却的太阳能模块和使用作为散热器的连接翅片的模块。比较以前者为基础。研究使用两种不同类型的空气：通风空气和静止空气，对带散热片的组件进行冷却。通过比较带翅片和不带翅片的光伏电池板的传热情况，研究试图分析环境和太阳辐射对太阳能电池性能的影响。这项研究是假设性的。研究结果表明，使用散热片冷却可降低电池温度，提高电效率和热效率。使用 COMSOL 程序获得的 PVT 太阳能电池性能估算值与白天进行的实验测量值相当吻合。电池温度降低幅度最大（正午时为 3.7ºC），电效率和热效率提高幅度最大（分别为 16.54% 和 58.3%）。实验结果与数值结果非常吻合。

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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Kufa Journal of Engineering

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