On the penetrative Benard–Marangoni convection in a ferromagnetic fluid layer

Authors:  C.E. Nanjundappa, I.S. Shivakumara, K. Srikumar

Abstract:
The onset of penetrative Benard–Marangoni convection in a horizontal ferromagnetic fluid layer in the presence of a uniform vertical magnetic field via an internal heating model is investigated by performing the linear stability analysis. It is observed that the internal heating alters the basic temperature, magnetic field intensity as well as magnetization distributions from linear to parabolic with respect to fluid layer depth and turns out the eigenvalue equations with variable coefficients. The eigenvalue problem is solved numerically using the Galerkin technique by considering either the Rayleigh number or the Marangoni number as the eigenvalue. The influence of buoyancy, magnetic and surface tension forces acting together as well as in isolation on the stability characteristics of the system is analyzed in detail. It is observed that the effect of internal heating Ns , magnetic Rayleigh number Rm, nonlinearity of the magnetization M3 is to hasten, while increasing the Biot number Bi is to delay the onset of Benard–Marangoni ferroconvection. Moreover, increasing Ns , Rm, M3, and decreasing Bi is to decrease the size of the convection cells.

Keywords:
Benard–Marangoni ferroconvection
Penetrative convection
Internal heating

Published in: Aerospace Science and Technology  (Volumes 27, Issue 1, June 2013)

Publisher: Elsevier

ISSN Information: 1270-9638

On the penetrative Benard–Marangoni convection in a ferromagnetic fluid layer

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