Experimental Investigation of Temperature and Condensation Control of Photovoltaic Panels

2019 6th International Conference on Electrical and Electronics Engineering (ICEEE) Pub Date : 2019-04-01 DOI:10.1109/ICEEE2019.2019.00067

M. N. Reda, M. Spinnler, H. Al-Kayiem, T. Sattelmayer

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引用次数: 1

Abstract

Photovoltaic (PV) panels in arid zones have the advantage of achieving high solar energy yields. However, there are two main problems that might compromise this advantage. First, the PV panel's electrical efficiency is strongly reduced by an increased daytime cell temperature. Second, during the night, the module surface temperature might undercut the dew point temperature. This results in water vapor condensation on the surface of the modules and, in combination with dust-loaded winds, mud formation on the panels. In the present study, a PVThermal (PV/T) hybrid system combined with an Underground Heat Storage system is being proposed to increase the efficiency of PV arrays especially in desert areas. During the day, the PV panel will be actively cooled, thus improving its electrical efficiency. During the night, it will be heated well above the dew point, thus preventing condensation. The results will show that the proposed system is able to resolve the two problems mentioned above. Due to the active thermal control, daytime PV efficiency could be increased by 10 % and nocturnal condensation could be avoided.

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光伏板温度与凝结控制的实验研究

干旱地区的光伏(PV)板具有实现高太阳能产量的优势。然而，有两个主要问题可能会损害这种优势。首先，太阳能电池板的电效率会因白天电池温度的升高而大大降低。其次，在夜间，模块表面温度可能会降低露点温度。这将导致模块表面的水蒸气凝结，并与含尘风结合，在面板上形成泥浆。在本研究中，提出了一种PVThermal (PV/T)混合系统与地下储热系统相结合，以提高光伏阵列的效率，特别是在沙漠地区。在白天，光伏面板将被主动冷却，从而提高其电气效率。在夜间，它将被加热到远高于露点的温度，从而防止凝结。结果表明，所提出的系统能够解决上述两个问题。由于主动热控制，白天PV效率可提高10%，并且可以避免夜间凝结。

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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2019 6th International Conference on Electrical and Electronics Engineering (ICEEE)

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