Abstract
A problem of mixed convective flow of a non-Newtonian power-law fluid over an inclined plate embedded in a non-Darcy porous medium under convective thermal boundary condition is attempted in the present investigation. In addition, the nonlinear temperature–concentration-dependent density relation taken into account to address thermal and solutal transport phenomena in some thermal systems which are performed at high-level temperatures. Initially, the flow equations of the present model are cast into a sequence of ordinary differential equations by the local non-similarity technique. Then the modified set of equations is evaluated by applying a successive linearization method. This numerical study explores the impact of pertinent parameters on the fluid flow characteristics through graphs and the salient features are discussed in detail.
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