MHD Mixed Convective Flow Past a Vertical Plate Embedded in a Porous Medium with Radiation Effects and Convective Boundary Condition Considering Chemical Reaction

The present paper examines the effect of thermal radiation on steady MHD mixed convection over a vertical plate with a convective boundary condition embedded in a porous medium. The effect of chemical reaction is also taken into account and hence a first-order chemical reaction is considered. Firstly, the governing equations of fluid have been written into a normalized form and then an implicit finite-difference scheme is applied for solving the ordinary differential equations. Illustrative outcomes are obtained to interpret the different physical parameters of interest. The results show that, for the case Bi = 0, the skin-friction is almost constant for various values of radiation parameter and no change in the Nusselt number takes place. However, for Bi > 0, increasing the radiation parameter is leading to an increase in values of skin-friction and reduction in values of Nusselt number.

Keywords:

Radiation effect, MHD flow, convection boundary condition chemical reaction, Biot number,

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