Wind-Induced Cooling Effects on Photovoltaic Panel Performance

Villan, Jay S.; Pepito, Sean Miles V.; Amierol, Chauncey Earl R.; Buenacosa, Jhune Marc D.

doi:10.34002/jeear.v3i1.78

JEEAR

2024

DOI: 10.34002/jeear.v3i1.78

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Wind-Induced Cooling Effects on Photovoltaic Panel Performance

Jay S. Villan,

Sean Miles V. Pepito,

Chauncey Earl R. Amierol

et al.

Abstract: This investigation evaluated the performance of a photovoltaic (PV) panel system under varied cooling speeds of a calibrated wind generator. The objectives encompassed the calibration of wind speed, integration of the wind generator with the PV panel system, monitoring the performance of the PV panel with wind-induced cooling, and analyzing overall performance under different wind generator settings. Parameters assessed included open circuit voltage, short circuit current, PV panel surface temperature, and pow… Show more

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2024

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References 17 publications

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The prospect of floating photovoltaic in clean energy provision and net-zero-emissions

Ebhota,

Tabakov

2024

Clean Techn Environ Policy

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This study emphasizes the critical role of renewable energy in addressing climate change challenges, particularly in reducing greenhouse gas emissions. It highlights the central importance of solar photovoltaic systems. While recognizing South Africa’s progress in renewable energy deployment, the study notes that substantial efforts are still needed to meet the country’s renewable energy targets. The study’s primary aim is to enhance the understanding and deployment of solar photovoltaic systems by critically examining the photovoltaic potential and performance of different sites. To achieve this, two scenarios—land photovoltaic and floating photovoltaic systems—were considered, focusing on hypothetical 10 MWp-installed capacity systems. The results indicate that the 10-MWp land photovoltaic system has a global tilted irradiance of 2184.7 kWh/m2, an annual total output of 18 GWh, and an average yearly performance ratio of 81%. The economic parameters for the land photovoltaic system include a capital expenditure of $9.0 million, an operational expenditure of $157,500 annually, and a levelised cost of energy of $0.04089/kWh. In contrast, the 10-MWp floating photovoltaic system reports a Global Tilted Irradiance of 1797 kWh/m2, an annual total output of 16 GWh, and a performance ratio of 76%. The economic parameters for the floating photovoltaic system include a capital expenditure of $10.6 million, an operational expenditure of $176,250 annually, and a levelised cost of energy of $0.04936/kWh. Both scenarios’ econo-technical parameters fall within acceptable ranges. However, the land photovoltaic system shows better performance, indicating some efficiency loss in the floating photovoltaic system possibly due to harsher offshore conditions. Based on the data from the reports, the study concludes that the econo-technical feasibility of floating photovoltaic in the Western Cape Province of South Africa is high. Graphical abstract

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The prospect of floating photovoltaic in clean energy provision and net-zero-emissions

Ebhota,

Tabakov

2024

Clean Techn Environ Policy

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Wind-Induced Cooling Effects on Photovoltaic Panel Performance

Cited by 1 publication

References 17 publications

The prospect of floating photovoltaic in clean energy provision and net-zero-emissions

The prospect of floating photovoltaic in clean energy provision and net-zero-emissions

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