Magneto hydrodynamic flow with viscous dissipation effects in the presence of suction and injection

M. Chandrasekar; M.S. Kasiviswanathan

doi:10.15632/jtam-pl.53.1.93

Magneto hydrodynamic flow with viscous dissipation effects in the presence of suction and injection

M. Chandrasekar, M.S. Kasiviswanathan

Gyarmati's variational principle developed on the thermodynamic theory of irreversible processes is employed to study the viscous dissipation effects with uniform suction and injection on the infinite flat plate. The velocity and temperature fields inside the boundary layer are approximated as simple polynomial functions, and the functional of the variational principle is constructed. The Euler Lagrange equations are reduced to simple polynomial equations in terms of velocity and thermal boundary layer thicknesses. The velocity, temperature profiles, skin friction and heat transfer with the viscous dissipation effects are analyzed and are compared with known numerical solutions. The comparison of the present solution with the existing solutions establishes the fact that the accuracy is remarkable.

Keywords: irreversible processes; velocity and temperature functions; viscous dissipation; suction and injection

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Journal of Theoretical and Applied Mechanics

ISSN 1429-2955 Quaterly (issued since 1963, until 1997 Mechanika Teoretyczna i Stosowana, ISSN 0079-3701)

Magneto hydrodynamic flow with viscous dissipation effects in the presence of suction and injection