Study of the Relationship Between Temperature and Efficiency in Photovoltaic Systems

Q4 Energy

Renewable Energy and Power Quality Journal Pub Date : 2023-07-01 DOI:10.24084/repqj21.395

A. Salazar, Diego A. de M. Fonseca, Caio M. L. Ribeiro, Vinicius M. Xavier, Gabriela M. S. Lopes, Kalynne G. da S. Maciel

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引用次数: 0

Abstract

Photovoltaic solar energy has been growing due to the demand for diversification of the global energy grid and the concern about replacing fossil fuels with renewable energy. There is a great potential for this form of energy generation due to high levels of solar irradiation. However, the efficiency of commercial panels is still low and is negatively affected by temperature rises on the panel. To mitigate this effect, several cooling techniques have been previously proposed. This work focuses on studying the relation between the temperature of solar panels and the energy produced by them. It also uses thermoelectric cells acting as coolers for the system bringing down the panel temperature to increase its efficiency. The main goal is to build a plant consisting of a solar panel attached to one or more thermoelectric cells and connected to a data acquisition system. This setup will be used to evaluate the improvement in performance obtained through this strategy. The experiments will be carried out at the Petroleum Measurement Evaluation Laboratory - LAMP, and the results will be compared with mathematical and simulation models present in the literature.

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光伏系统温度与效率关系的研究

由于对全球能源网多样化的需求以及对用可再生能源取代化石燃料的关注，光伏太阳能一直在增长。由于太阳辐射水平高，这种形式的能源产生有很大的潜力。然而，商用面板的效率仍然很低，并且受到面板上温度升高的负面影响。为了减轻这种影响，以前提出了几种冷却技术。本文着重研究了太阳能板的温度与太阳能板产生的能量之间的关系。它还使用热电电池作为系统的冷却器，降低面板温度以提高效率。主要目标是建造一个由太阳能电池板连接到一个或多个热电电池并连接到数据采集系统组成的工厂。该设置将用于评估通过该策略获得的性能改进。实验将在石油测量评价实验室- LAMP进行，并将结果与文献中的数学和模拟模型进行比较。

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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来源期刊

Renewable Energy and Power Quality Journal Energy-Energy Engineering and Power Technology

CiteScore

0.70

自引率

0.00%

发文量

147