Investigation of the effect of transverse thermal dispersion on forced convection in porous media

This experimental study investigates non-Darcian flow and heat transfer in high-porosity fibrous media. It considers forced convection through materials of different permeability, porosity and thermal conductivity. The results show that the porous medium enhances heat transfer from a surface as comp

In the present paper, the eects of viscous dissipation, the boundary condition assumptions, thermal dispersion, particle diameters and the variable properties of oil on convection heat transfer are analyzed using a numerical model including thermal nonequilibrium assumption. The results, which are c

An analytical study on fully developed forced convection in a homogeneous porous medium is presented. Closed form solutions for the temperature distributions in the transverse direction with the inclusion of frictional heating due to viscous dissipation are obtained, with variations of Darcy number

## Abstract The effect of thermal asymmetry on laminar forced convection heat transfer in an annular porous channel with a Darcy dissipation of fluid kinetic energy was investigated numerically. The cylindrical surfaces making the channel boundaries were kept at constant but different temperatures.