Abstract
HEAT AND MASS TRANSFER ON MHD FLUID FLOW OVER A SEMI INFINITE FLAT PLATE WITH RADIATION ABSORPTION, HEAT SOURCE AND DIFFUSION THERMO EFFECT
Highlights
Fluid dynamics of various fluids have many engineering and industrial applications
Heat and mass transfer effects on the unsteady flow of a micropolar fluid through a porous medium bounded by a semi-infinite vertical plate in a slip-flow regime are studied taking into account a homogeneous chemical reaction of the first order numerically studied by Chaudhary and Jha (2008)
In this paper we consider unsteady simultaneous convective heat and mass transfer flow along a vertical permeable plate embedded in a fluid-saturated porous medium in the presence of mass blowing or suction, diffusion-thermo and radiation absorption effects, magnetic field effects and absorption effects
Summary
Fluid dynamics of various fluids have many engineering and industrial applications. In particular combined heat and mass transfer from different processes with porous media has a wide range in engineering and industrial applications oil recovery, underground energy transport, geothermal reservoirs, cooling of nuclear reactors, drying of porous solids, packed-bed catalyst reactors and thermal insulation. Heat and mass transfer effects on the unsteady flow of a micropolar fluid through a porous medium bounded by a semi-infinite vertical plate in a slip-flow regime are studied taking into account a homogeneous chemical reaction of the first order numerically studied by Chaudhary and Jha (2008). Durga Prasad et al (2015) focuses on unsteady, twodimensional, laminar, boundary layer flow of a viscous incompressible electrically conducting fluid long a semi-infinite vertical permeable moving plate in the presence of Diffusion-thermo and radiation absorption effects. In this paper we consider unsteady simultaneous convective heat and mass transfer flow along a vertical permeable plate embedded in a fluid-saturated porous medium in the presence of mass blowing or suction, diffusion-thermo and radiation absorption effects, magnetic field effects and absorption effects. Numerical values of local skin-friction coefficient, Nusselt number and Sherwood number are tabulated
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