Title of article
Study of Heat and Mass Transport in Bénard-Darcy Convection with G-Jitter and Variable Viscosity Liquids in a Porous Layer with Internal Heat Source
Author/Authors
Srivastava, A Department of Mathematics - Institute of Science - Banaras Hindu University, India , Bhadauria, B. S Department of Applied Mathematics - School for Physical Sciences - Babasaheb Bhimrao Ambedkar University, India , Singh, A. K Department of Mathematics - Institute of Science - Banaras Hindu University, India
Pages
13
From page
1217
To page
1229
Abstract
In this research article, we investigated the weakly non-linear effect of gravity modulation for the temperature
dependent viscous fluid in a horizontal porous layer in the presence of internal heat source. We use power series
expansion in terms of the amplitude of gravity modulation, which is considered to be small for double-diffusive
convection in porous media. We graphically show the effect of internal heat source, solute Rayleigh number,
Lewis number, Vadász number, thermo-rheological parameter, the amplitude of gravity modulation, the
frequency of modulation on the heat and mass transfer using Ginzburg-Landau equation. The effect of gravity
modulation is found significant and is more effective for the low values of frequency of modulation.
Keywords
Weakly non-linear stability , Double-diffusive convection , Temperature dependent viscosity , Porous media , Gravity modulation , Ginzburg-Landau equation
Journal title
Astroparticle Physics
Serial Year
2018
Record number
2468593
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