RT Journal Article ID 7ab2ce8c1fb95bf0 A1 Ibrahim, Fouad S. A1 Elaiw, Ahmed M. T1 Vortex Instability of Mixed Convection Boundary Layer Flow Adjacent to a Nonisothermal Horizontal Surface in a Porous Medium with Variable Permeability JF Journal of Porous Media JO JPM YR 2008 FD 2007-12-24 VO 11 IS 3 SP 305 OP 321 AB A linear stability theory is used to analyze the vortex instability of mixed convection boundary layer flow in a saturated porous medium adjacent to a horizontal surface, where the wall temperature is a power function of the distance from the origin. The permeability of the medium is assumed to vary exponentially with distance from the wall. The entire mixed convection regime is divided into two regions. The first region covers the forced convection-dominated regime, which is characterized by the parameter ξf = Rax/Pex3/2 and the eigenvalue Peclet number. The second region covers the free convection-dominated regime, which is characterized by the parameter ξn = Pex/Rax2/3 and the eigenvalue Rayleigh number. The two solutions provide results that cover the entire mixed-convection regime from pure forced- to pure free-convection limit. Velocity and temperature profiles as well as local Nusselt number for the base flow are presented for the uniform permeability (UP) and variable permeability (VP) cases. The critical Peclet and Rayleigh numbers and the associated wave numbers for both the UP and VP cases are obtained. It is found that the VP effect tends to increase the heat transfer rate and destabilize the flow to the vortex mode of disturbance. PB Begell House LK https://www.dl.begellhouse.com/journals/49dcde6d4c0809db,069ec6d77afbdea4,7ab2ce8c1fb95bf0.html