Research Journal of Science and Technology
  • Year: 2017
  • Volume: 9
  • Issue: 1

Magneto-Thermosolutal Convection in Rivlin-Ericksen Viscoelastic Fluid in a Porous Medium

2Department of Mathematics, Govt. College, Nadaun (Hamirpur), (HP) India-177033

3Department of Mathematics, NSCBM GC, Hamirpur, (HP), India, 177005

*Corresponding Author E-mail: pawanmaths78@gmail.com, ajaibbanyal@rediffmail.com

MSC 2000 No.: 76A05, 76E06, 76E15; 76E07

Abstract

Thermosolutal instability of Veronis type in Rivlin-Ericksen viscoelastic fluid in the presence of uniform vertical magnetic fieldin a porous medium is considered. Following the linearized stability theory and normal mode analysis, the paper mathematically established the condition for characterizing the oscillatory motions which may be neutral or unstable, for any arbitrary combination of free and rigid boundaries at the top and bottom of the fluid. It is established that all non-decaying slow motions starting from rest, in a Rivlin-Ericksen viscoelastic fluid of infinite horizontal extension and finite vertical depth in the presence of uniform vertical magnetic field in a porous medium, are necessarily non-oscillatory, in the regime where Rs is the Thermosolutal Rayliegh number, Q is the Chandrasekhar number, p2 is the magnetic Prandtl number, p3 is the thermosolutal Prandtl number, Pl is the medium permeability, ɛ is the porosity and F is the viscoelasticity parameter. The result is important since it hold for all wave numbers and for any arbitrary combination of free and rigid boundaries at the top and bottom of the fluid. A similar characterization theorem is also proved for Stern type of configuration.

Keywords

Thermosolutal Rivlin, convection-Ericksen Fluid, Magnetic Field, PES, Rayleigh number, Chandrasekhar number