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A computational study on nanofluid impingement jets in thermal management of photovoltaic panel

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  • Mohammadpour, Javad
  • Salehi, Fatemeh
  • Sheikholeslami, Mohsen
  • Lee, Ann

Abstract

Thermal management is essential to improve the overall performance of photovoltaic (PV) cells. This study presents a comprehensive numerical study on a PV panel to achieve economic efficiency cooling system. A nanofluid jet impingement cooling (JIC) system with different configurations is developed and integrated into the PV panel to control the surface temperature. A three-phase mixture model shows a satisfactory agreement between the simulation and measurement values. Then, the simulations are conducted to understand the importance of different influencing parameters, including inlet temperature (20–40 °C), number of nozzles (8−24), mass flow rate (0.045–0.12 kg/s), jet-to-surface distance (5.1–55 mm), and nozzle diameter (1 and 2 mm). Numerical results demonstrate that uncooled PV temperature reaches 68.5 °C, while using the JIC system reduces that by 36.4 °C. Lower inlet temperatures and larger mass flow rates result in higher PV efficiency. The number of nozzles affects the surface temperature and its uniformity. Small jet-to-surface distances enhance the turbulence kinetic energy and the heat transfer rate. For the nozzle diameters of 1 and 2 mm, the maximum power increment increases to 20.36% and 20.19%, respectively. However, the nozzle diameter of 1 mm increases the pumping power with a coefficient of energy of 1.18.

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  • Mohammadpour, Javad & Salehi, Fatemeh & Sheikholeslami, Mohsen & Lee, Ann, 2022. "A computational study on nanofluid impingement jets in thermal management of photovoltaic panel," Renewable Energy, Elsevier, vol. 189(C), pages 970-982.
    • Handle: RePEc:eee:renene:v:189:y:2022:i:c:p:970-982
    DOI: 10.1016/j.renene.2022.03.069
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    References listed on IDEAS

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    1. Fatih Selimefendigil & Damla Okulu & Hakan F. Öztop, 2023. "Photovoltaic Thermal Management by Combined Utilization of Thermoelectric Generator and Power-Law-Nanofluid-Assisted Cooling Channel," Sustainability, MDPI, vol. 15(6), pages 1-29, March.

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