Transient magnetohydrodynamic flow of Eyring-Powell fluid in a porous medium

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Date

2016

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Ife Journal of Science, Obafemi Awolowo University Ile Ife.

Abstract

This study investigated the effects of magnetic field, thermal radiation and viscous dissipation on transient magnetohydrodynamic (MHD) flow of non-Newtonian incompressible fluid obeying Eyring-Powell model in a porous medium. The governing equations were formulated and transformed into non-dimensional equations.Numerical solution to the transformed governing nonlinear partial differential equations was obtained using the implicit finite difference scheme of Crank-Nicolson type. The finite difference equations form Thomas algorithm tri-diagonal matrix system of equations which was solved using the MATLAB. The results showed that a rise in Non-Newtonian parameter F, thermal Grashof number Gr, modified Grashof number Gm and dissipation function Ec, caused velocity to increase whereas velocity decreased with increase in Non-Newtonian parameter A, magnetic field parameter M, radiation parameter R, Schmidt number Sc, Prandtl Number Pr andchemical reaction parameter, g. Temperature increased with increase in dissipation function Ec, while it decreased as Prandtl number, magnetic field parameter and Radiation number increased. Increase in Schmidt number and chemical reaction result to a decrease in concentration.

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Keywords

Non-Newtonian, Radiation, Magnetic Field, Eyring-Powell Model, Dissipation

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