Solar photovoltaic surface cooling using hybrid solar chimney-collector with wavy fins

Zhang Genge and Mohd Suffian Misaran@Misran and Zikuan Zhang and Mohd Adzrie Radzali and Mohd Azlan Ismail (2024) Solar photovoltaic surface cooling using hybrid solar chimney-collector with wavy fins. Journal of Advanced Research in Numerical Heat Transfer, 22. pp. 46-58.

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Abstract

Elevated temperatures, frequently observed in regions characterized by high ambient heat, markedly diminish the operational efficiency and curtail the lifespan of Solar Photovoltaic (PV) panels. Consequently, it is essential to enhance the sustainability and operational performance of solar energy systems through the mitigation of surface temperatures of solar PV panels. The study investigates the impact of the number of fins on the panel's surface temperature and the airflow within the collector-chimney cavity. Computational Fluid Dynamics (CFD) simulations were employed to determine the optimal number of fins for maximum cooling efficiency. The results indicate that increasing the number of fins initially lowers the solar PV surface temperatures, but the improvements diminish due to increased airflow restrictions. The surface temperature reduction enabled by the fins up to 14.1°C at 50.99°C, which can help mitigate solar PV efficiency losses in hot climates. The CFD simulations accurately predicted the thermal-fluid behaviour and cooling capacity of the hybrid system, as validated against experimental data. The study concludes that the incorporation of optimized wavy cooling fins in a hybrid solar chimney-collector system shows strong potential for passively enhancing solar PV panel cooling and efficiency.

Item Type:	Article
Keyword:	Passive cooling, Wavy fins, Solar chimney, Photovoltaic
Subjects:	Q Science > QB Astronomy > QB1-991 Astronomy > QB495-903 Descriptive astronomy > QB500.5-785 Solar system T Technology > TA Engineering (General). Civil engineering (General) > TA1-2040 Engineering (General). Civil engineering (General)
Department:	FACULTY > Faculty of Engineering
Depositing User:	SITI AZIZAH BINTI IDRIS -
Date Deposited:	17 Feb 2025 14:53
Last Modified:	17 Feb 2025 14:53
URI:	https://eprints.ums.edu.my/id/eprint/42882

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