Heliyon (Feb 2024)

Simulation of the fluid dynamic and thermal behavior of an experimental passive cooling system of photovoltaic panels

  • Guido Abril-Macias,
  • Juan Peralta-Jaramillo,
  • Emerita Delgado-Plaza,
  • Ian Sosa-Tinoco,
  • Daniel Avilés

Journal volume & issue
Vol. 10, no. 3
p. e24768

Abstract

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Solar energy capacity has increased significantly globally, with values above 800 GW produced by different systems. Among these, PVT panels can generate either electricity, heat, or both. As these systems present various issues associated with excessive temperature increases, cooling systems have been developed to control the temperature using fluids such as water. The article uses previous data from the Technologic Institute of Sonora, which analyzed various cooling device configurations and selected the best two options (B1 and B4) based on the panel efficiency. Using the boundary conditions and the predicted streamlines, a simulation was made in CFD programs, determining the correct parameters to replicate the system fluid dynamics. Several simulations were carried out using different turbulence models. After comparing the temperature contour diagram and the streamline, it was obtained that the k-ω turbulence model best describes the fluid's behavior. The transient analysis simulations allow us to determine that the B1 configuration delivers the best cooling effect as it presents the most homogeneous temperature profile. BIAS and RMSE were calculated to validate and contrast the results obtained experimentally, obtaining values of 0.8675 and 1.8981, respectively.

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