MHD MIXED CONVECTION STAGNATION-POINT FLOW OF A MICROPOLAR FLUID IN A POROUS MEDIUM TOWARDS A HEATED STRETCHING SHEET WITH THERMAL RADIATION-Reference-Cited by-同舟云学术

MHD MIXED CONVECTION STAGNATION-POINT FLOW OF A MICROPOLAR FLUID IN A POROUS MEDIUM TOWARDS A HEATED STRETCHING SHEET WITH THERMAL RADIATION

Published:2012-09-01 Issue:4 Volume:17 Page:498-518
ISSN:1392-6292
Container-title:Mathematical Modelling and Analysis
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Author:

Pal Dulal¹,Chatterjee Sewli²

Affiliation:

1. Visva-Bharati University Santiniketan, 731235 West Bengal, India

2. Bengal Institute of Technology and Management (BITM) Santiniketan, 731236 West Bengal, India

Abstract

The present investigation is concerned with the study of heat and mass transfer characteristics on MHD boundary layer flow of an electrically conducting micropolar fluid over a non-isothermal stretching sheet embedded in a porous medium of variable thermal conductivity by applying prescribed heat flux for the heating processes. The thermal boundary layer equation takes into account of Ohmic dissipation due to transverse magnetic and electric fields. The governing system of partial differential equations is transformed into a system of non-linear ordinary differential equations using similarity transformation. The transformed non-linear coupled differential equations are linearized by quasi-linearization method and then solved very efficiently by finite-difference method. Attention has been focused to study the effects of various physical parameters on velocity, temperature and concentration in the boundary layer. Numerical data for the local skin friction coefficient, surface temperature and surface solutal concentration have also been tabulated for various parametric conditions.

Publisher

Vilnius Gediminas Technical University

Subject

Modeling and Simulation,Analysis

Reference41 articles.

1. Viscoelastic MHD flow and heat transfer over a stretching sheet with viscous and ohmic dissipations

2. Blowing/suction effect on hydromagnetic heat transfer by mixed convection from an inclined continuously stretching surface with internal heat generation/absorption

3. HALL CURRENT AND OHMIC HEATING EFFECTS ON MIXED CONVECTION BOUNDARY LAYER FLOW OF A MICROPOLAR FLUID FROM A ROTATING CONE WITH POWER-LAW VARIATION IN SURFACE TEMPERATURE

4. Boundary layer flow and heat transfer past a stretching plate with variable thermal conductivity

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