The Performance of a Photovoltaic Cell Coupled with a Thermoelectric Generator

V. Ordodi, I. Borlea, D. A. Vereș, C. Stănese, B. F. Mercè
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Abstract

Abstract Identifying possibilities to increase the performance of photovoltaic cells is a priority for the energy field. This article presents preliminary results obtained in natural environment conditions with an experimental device that allows the cooling of photovoltaic cells and additionally the partial transformation of the heat transferred to the cold source (natural flowing water) by coupling with a thermoelectric generator based on the Seebeck effect. The structure of the experimental device is a sandwich type with the following main elements: the polycrystalline silicon photovoltaic cell, the Bi-Te thermoelectric generator and an aluminum radiator in contact with the cold water of the river. In this way, an increase in the electrical output power of approximately 28% is obtained, compared to the same photovoltaic cell alone.
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光伏电池与热电发电机耦合的性能研究
确定提高光伏电池性能的可能性是能源领域的优先事项。本文介绍了一个实验装置在自然环境条件下获得的初步结果,该装置允许光伏电池的冷却,并且通过与基于塞贝克效应的热电发生器耦合,将传递给冷源(自然流水)的热量部分转化。实验装置的结构为夹层式,主要由多晶硅光伏电池、Bi-Te热电发电机和与河水冷水接触的铝散热器组成。这样,与单独使用相同的光伏电池相比,电输出功率增加了约28%。
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