Analysis of the effect of a microcontroller-based solar panel cooling system on temperature and power output

International Journal of Applied Power Engineering (IJAPE) Pub Date : 2023-06-01 DOI:10.11591/ijape.v12.i2.pp119-125

Vicky Andria Kusuma, Happy Aprillia, S. S. Suprapto, Muhammad Nizhom Ramadhani, Aji Akbar Firdaus, D. F. U. Putra

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Abstract

This research addresses the problem of temperature fluctuations affecting the efficiency of solar panels. A cooling system has been developed using a Peltier and a combination of air- and water-cooling methods. The air-cooling system involves placing a Peltier coated with a heatsink under the solar panel, while the water-cooling system uses pumped water on the panel's surface. The study aims to design a solar panel cooling system to reduce temperature and power losses and compare its output to standard solar panels. The system includes a Peltier, DC fan, and heatsink. Results indicate that the air-cooling system reduced temperature losses on the bottom milk of solar panels by 14.5%. However, the surface of solar panels showed no reduction in temperature losses. Additionally, solar panels with cooling systems were able to reduce power losses by 4% compared to standard solar panels. This research suggests that the use of an air-cooling system utilizing Peltier as the cooling medium could be a potential solution to reduce temperature losses and power losses on solar panels.

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基于单片机的太阳能板冷却系统对温度和输出功率的影响分析

本研究解决了温度波动影响太阳能电池板效率的问题。一个冷却系统已经开发使用珀尔帖和空气和水冷却方法的组合。空气冷却系统包括在太阳能电池板下放置一个涂有散热器的珀尔帖，而水冷却系统使用面板表面的抽水。这项研究旨在设计一种太阳能电池板冷却系统，以减少温度和功率损失，并将其输出与标准太阳能电池板进行比较。系统包括电源模块、直流风扇和散热器。结果表明，空气冷却系统使太阳能电池板底部奶的温度损失降低了14.5%。然而，太阳能电池板表面的温度损失并没有减少。此外，与标准太阳能电池板相比，带有冷却系统的太阳能电池板能够减少4%的功率损失。这项研究表明，利用珀尔帖作为冷却介质的空气冷却系统可能是减少太阳能电池板温度损失和功率损失的潜在解决方案。

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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International Journal of Applied Power Engineering (IJAPE)

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