Abstract
Effect of Variable permeability, concentration and viscous dissipation with Chemical reaction and Oscillating temperature on Unsteady MHD Walters-B viscoelastic dusty fluid past over inclined porous
Highlights
Radiation and Chemical reaction effect on MHD flows arise in many areas of engineering and applied physics
Non similar solutions for heat and mass transfer flow in an electrically conducting viscoelastic fluid over a stretching sheet saturated in a porous medium with suction/blowing by Rajgopal, Veena, Pravin [4]
The objective of this paper is to analyze the effects of variable permeability, radiation and chemical reaction on unsteady Walter‟s-B viscoelastic MHD dusty flow past a semi infinite inclined porous plate embedded in porous media with oscillating temperature and viscous dissipation
Summary
Radiation and Chemical reaction effect on MHD flows arise in many areas of engineering and applied physics. It is analyzed that Momentum and heat transfer in the magnetohydrodynamic stagnation point flow of a viscoelastic fluid towards a stretching surface by Dholey, Gupta and Mahapatra [5] Further it has examined Finite difference analysis of transient free convection with mass transfer on an isothermal vertical flat plate by Ganesan and Soundalgekar [6]. SoretDufour and radiation effects on unsteady MHD flow past an impulsively started inclined porous plate with variable temperature and mass diffusion by Pandya and Shukla [7]. The objective of this paper is to analyze the effects of variable permeability, radiation and chemical reaction on unsteady Walter‟s-B viscoelastic MHD dusty flow past a semi infinite inclined porous plate embedded in porous media with oscillating temperature and viscous dissipation. Temperature and concentration profiles are discussed through graphs for different values of parameters
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