STUDYING THE INFLUENCE OF DIFFERENT COOLING TECHNIQUES ON PHOTOVOLTAIC-CELLS PERFORMANCE

Journal of Modern Research in English Language Studies Pub Date : 2019-07-01 DOI:10.21608/JMR.2019.12713.1002

Ahmed H. Ali, Khalid H. M. Abdalrahman, S. S. Wahid

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引用次数: 2

Abstract

The effect of temperature on the electrical parameters of photovoltaic cells is negative. The efficiency of photovoltaic cells can be enhanced by cooling which the temperature is considered as one of the main factors that affect negatively on the output power. This study was carried out to compare between three different cooling techniques and determine their effects on the output power. The first, cooling techniques is applied, the panel front surface cooled using the water spray on the surface. The second, the panel back surface cooled by extended fins. The third, the panel back surface cooled by extended fins with fans. As expected, the results of comparisons different methods using in cell cooling showed that, there is an increase in the efficiency of photovoltaic cells with the drop in cell temperature, which helps to increase the rate of photovoltaic cell performance and output power. In these experiments the output power increased 2.5%. At the first technique using water spray method the temperature dropped 7 degrees. At the other two methods the temperature dropped 3 degrees less than the panel without cooling. The used pump and fans were power consuming. So, the most effective method was cooling using the fins.

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研究不同冷却技术对光伏电池性能的影响

温度对光伏电池电学参数的影响是负的。冷却可以提高光伏电池的效率，而温度是影响光伏电池输出功率的主要因素之一。本研究比较了三种不同的冷却技术，并确定了它们对输出功率的影响。首先，冷却技术的应用，面板前表面冷却使用表面上的水喷雾。第二，面板后表面采用延伸翅片冷却。第三，面板后表面采用带风扇的延伸翅片冷却。正如预期的那样，对不同冷却方法的比较结果表明，随着电池温度的降低，光伏电池的效率有所提高，这有助于提高光伏电池的性能和输出功率。在这些实验中，输出功率增加了2.5%。第一种方法采用喷水法，温度下降了7度。在其他两种方法下，温度下降比没有冷却的面板少3度。用过的泵和风机耗电大。所以，最有效的方法是使用散热片进行冷却。

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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来源期刊

Journal of Modern Research in English Language Studies

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审稿时长

12 weeks