EXPERIMENTAL AND SIMULATION STUDY FOR IMPROVING THE SOLAR CELL EFFICIENCY BY USING ALUMINUM HEAT SINKS

Monaem Elmnifi; Ahmed Nassar Mansur; Ayad K. Hassan; Atheer Raheem Abdullah; Sadoon K. Ayed; Hasan Shakir Majdi; Laith Jaafer Habeeb

doi:10.24874/PES06.01.018

Proceedings on Engineering Sciences (Mar 2024)

EXPERIMENTAL AND SIMULATION STUDY FOR IMPROVING THE SOLAR CELL EFFICIENCY BY USING ALUMINUM HEAT SINKS

Monaem Elmnifi ,
Ahmed Nassar Mansur ,
Ayad K. Hassan ,
Atheer Raheem Abdullah ,
Sadoon K. Ayed ,
Hasan Shakir Majdi ,
Laith Jaafer Habeeb

Affiliations

Monaem Elmnifi: ORCiD; Department of Mechanical Engineering, Belgorod Technical University,Bright Star University, Elbriga, Russia, Libya
Ahmed Nassar Mansur: ORCiD; Higher Institute of Science and Technology, Al-Zueitina, Libya
Ayad K. Hassan: ORCiD; Department of Material Engineering, University of Technology- Iraq, Baghdad, Iraq
Atheer Raheem Abdullah: ORCiD; Department of Air-Conditioning and Refrigeration Eng. Tech., Al- Rafidain University College, Baghdad, Iraq
Sadoon K. Ayed: ORCiD; Mechanical Engineering Department, University of Technology- Iraq, Baghdad, Iraq
Hasan Shakir Majdi: ORCiD; Department of Chemical Engineering and Petroleum Industries, Al-Mustaqbal University College, 51001 Hillah, Babylon, Iraq
Laith Jaafer Habeeb: ORCiD; Training and Workshop Center, University of Technology- Iraq, Baghdad, Iraq

DOI: https://doi.org/10.24874/PES06.01.018
Journal volume & issue: Vol. 6, no. 1
pp. 161 – 170

Abstract

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The research conducted deals with the use of an aluminum heat sink, which is usually used to cool electronic cores and integrated circuits, to cool a solar cell and study the effect of microprocessors and integrated circuits on the performance and temperature of the cell. In this study, an experiment was carried out and simulated using computational fluid dynamics. The results showed that increasing the temperature of the solar cell leads to an accelerated decrease in the open circuit voltage, but when a heat sink is used, the increasing temperature of the cell is reduced more slowly over the same period. Thus, the open circuit voltage drop is reduced more slowly as well, which means the cell operates more efficiently under the same conditions. The temperatures are 290 K at the lowest point and 350 K at the highest point, which shows that heat is being dissipated from the solar cell to the heat sink. It is evident that as the heat sink's number of fins increases, the rate at which heat is transferred increases because the enhanced heat transfer that results from having more fins lowers the heat sink's temperature. These findings can help improve the efficiency of solar power generation and increase the efficiency of solar cells in converting solar energy into electrical energy.

Published in Proceedings on Engineering Sciences

ISSN: 2620-2832 (Print); 2683-4111 (Online)
Publisher: University of Kragujevac
Country of publisher: Serbia
LCC subjects: Technology: Engineering (General). Civil engineering (General)
Website: http://pesjournal.net

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