Please use this identifier to cite or link to this item: http://elar.urfu.ru/handle/10995/123007
Title: Effectiveness of PV/T Passive Natural Air Cooling by Backside Attached Fins
Authors: Al-Azawiey, S. S.
Sundus S., M. M.
Arifin, A. B.
Issue Date: 2023
Publisher: International Information and Engineering Technology Association (IIETA)
Ural Federal University
Уральский федеральный университет
Citation: Al-Azawiey S. S. Effectiveness of PV/T Passive Natural Air Cooling by Backside Attached Fins / Sundus S. Al-Azawiey, Mohamed M. Mohamed, Aqilah B. Arifin // International Journal of Energy Production and Management. — 2023. — Vol. 8. Iss. 2. — P. 55-62.
Abstract: An existing PV system is cooled by heat dissipation to air by straight fins arrays attached at the backside of the panels. However, a little average temperature drop has been achieved in the plant. The current research aims to simulate and investigate the low cooling performance experienced in the plant and recommend improved PV cooling by backside installed fins. A CAD model was constructed with CATIA software and imported to ANSYS-Fluent to simulate and investigate the cause of low cooling performance. In addition, cooling performance by 45°, 90°and 135°have been studied. The solar PV panel has 1000-mm-width and 2000-mm-length, whereas the fins' base dimensions are 830-mmwidth, and 1260-mm-length and each fin has 80-mm-height. The reference case study's average temperature measured in the actual site is 46.9℃, while the simulation prediction is 48.4℃. The 3.3% difference suggests that the simulation procedure is sufficient to investigate the other cases. Solar PV is paired with the fins air cooling system, stimulating the PV/T with only a 2.7% difference between the actual measurements and the simulation prediction. The bare panel simulation results predicted the backside temperature to be 13.4℃ above the ambient temperature. The 45°and 90°oriented fins reduced the backside temperature to 4.2℃ and 9.54℃ above the ambient temperature. In contrast, the 135° oriented fins have a negative cooling effect, as they increased the backside temperature to 19.05℃ above the ambient temperature. The analysis suggests that the low-performing cooling in the physical system is due to the bad thermal contact between the array base plate and the panel's backside.
Keywords: PV/T
RENEWABLE ENERGY
PV/T COOLING
PASSIVE COOLING
PV/T EFFICIENCY
URI: http://elar.urfu.ru/handle/10995/123007
RSCI ID: https://www.elibrary.ru/item.asp?id=54092614
ISSN: 2056-3272
2056-3280
DOI: 10.18280/ijepm.080201
Origin: International Journal of Energy Production and Management. 2023. Vol. 8. Iss. 2
Appears in Collections:International Journal of Energy Production and Management

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