Conjugate Natural Convection in a Square Porous Cavity Filled with a Nanofluid in the Presence of Two Isothermal Cylindrical Sources

Authors

  • Islam Bouafia Mechanical Modeling and Experimentation Laboratory, Tahri Mohamed University, Bechar 08000, Algeria
  • Razli Mehdaoui Energarid Laboratory, Tahri Mohamed University, Bechar 08000, Algeria
  • Syham Kadri Energarid Laboratory, Tahri Mohamed University, Bechar 08000, Algeria
  • Mohammed Elmir Mechanical Modeling and Experimentation Laboratory, Tahri Mohamed University, Bechar 08000, Algeria

Keywords:

free convection, porous medium, nanofluid, cylindrical source, Galerkin finite element method, conduction heat transfer

Abstract

In this work, a numerical study has been performed for the problem of steady-state natural convection in a square porous cavity having solid wall of finite thickness and conductivity filled by a nanofluid in the presence of two isothermal cylindrical sources. The external walls of the cavity are considered adiabatic and the circular sources are maintained at hot and cold uniform temperature. The internal thick wall has been a conducting solid. The governing dimensionless equations are solved using Galerkin finite element method and Darcy-Brinkman model assumed to be adopted. The results are presented as isotherms, streamlines, stream function values, average and local Nusselt number for various combinations of Rayleigh and Darcy numbers, concentration of nanoparticles, Thermal conductivity ratio and dimensionless wall thickness of the solid portion. The convection heat transfer can be enhanced by increasing of these parameters except for the wall thickness.

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Published

2024-03-28

How to Cite

Islam Bouafia, Razli Mehdaoui, Syham Kadri, & Mohammed Elmir. (2024). Conjugate Natural Convection in a Square Porous Cavity Filled with a Nanofluid in the Presence of Two Isothermal Cylindrical Sources. Journal of Advanced Research in Fluid Mechanics and Thermal Sciences, 80(1), 147–164. Retrieved from https://semarakilmu.com.my/journals/index.php/fluid_mechanics_thermal_sciences/article/view/7326

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