Open AccessCombined effect of free and forced convection on MHD flow in a rotating porous channel
Author(s) -
D. R. V. Prasada Rao,
D. V. Krishna,
Lokenath Debnath
Publication year - 1980
Publication title -
international journal of mathematics and mathematical sciences
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.21
H-Index - 39
eISSN - 1687-0425
pISSN - 0161-1712
DOI - 10.1155/s0161171282000167
Subject(s) - magnetohydrodynamics , mathematics , flow (mathematics) , mechanics , forced convection , channel (broadcasting) , porosity , convection , geometry , materials science , physics , magnetic field , computer science , composite material , telecommunications , quantum mechanics
This paper gives a steady linear theory of the combined effect of the free and forced convection in rotating hydromagnetic viscous fluid flows in a porous channel under the action of a uniform magnetic field. The flow is governed by the Grashof number G, the Hartmann number H, the Ekman number E, and the suction Reynolds number S. The solutions for the velocity field, temperature distribution, magnetic field, mass rate of flow and the shear stresses on the channel boundaries are obtained using a perturbation method with the small parameter S. The nature of the associated boundary layers is investigated for various values of the governing flow parameters. The velocity, the temperature, and the shear stresses are discussed numerically by drawing profiles with reference to the variations in the flow parameters
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