Investigating the performance of photovoltaic panels using optical water spectral splitting filter: An experimental and computational analysis

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Date

2024-08

Journal Title

Journal ISSN

Volume Title

Type

Article

Publisher

American Institute of Physics

Series Info

Journal of Renewable and Sustainable Energy;Volume 16, Issue 41 July 2024 Article number 043503

Abstract

This study addresses the thermal stress issues caused by conventional cooling methods on photovoltaic (PV) cells, which reduce their efficiency and lifespan. Recently, the water-based spectral splitting filter (SSF) system was introduced as a solution to optimize solar energy conversion. The research fills a significant gap by focusing on the practical application of water-based SSFs under actual high-temperature conditions in Cairo (latitude of 30.1°N). The study evaluates the effects of radiation intensity (200-1000 W/m2), optical fluid flow rate (0.001-0.01 kg/s), and filter thickness (2-10 mm) on the system's performance. According to the data, the SSF system is a superior cooling technique as it can lower the PV temperature by 93% over a range of radiation intensities. The system's performance is also found to be positively influenced by increasing the SSF's thickness and flow rate, achieving 15% and 29.4% maximum increases in the fill factor and electrical efficiency, respectively, over the conventional PV panel at a thickness of 10 mm and a flow rate of 0.01 kg/s. Additionally, experimental data support the modeling findings, with a maximum variation of ±4.7% in the efficiency of the PV panel.

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Keywords

Optical filters , Experimental analysis; Filter system; Optical water; Performance; Photovoltaic panels; Photovoltaics; Radiation intensity; Spectral splitting; Systems performance; Water based

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