TITLE:
Influence of Hartmann Number on Convective Flow of Maxwell Fluid between Two Hot Parallel Plates through Porous Medium Subject to Arbitrary Shear Stress at the Boundary
AUTHORS:
Adnan Ahmad, Zaib Un Nisa, Mudassar Nazar, Muhammad Imran Asjad, Mushtaq Ahmad
KEYWORDS:
Natural Convection, Maxwell Fluid, Hot Parallel Plates, MHD, Porous Media, Shear Stress
JOURNAL NAME:
Journal of Applied Mathematics and Physics,
Vol.10 No.1,
January
21,
2022
ABSTRACT: Natural convection flow of unsteady Maxwell fluid with the effects of constant magnetic force in the course of a porous media is investigated in this research work. Fluid motion between a channel of parallel plates is tempted by time dependent shear stress applied on one plate. The governing partial differential equations of a model under consideration are transformed into ordinary differential equations by Laplace transform method and then solved for temperature and velocity fields. The obtained results for temperature fields are expressed in terms of complementary error function. The influences of involved parameters likes Hartmann number, Grashf number, Prandlt number and porosity parameter, on temperature and velocity profiles are shown graphically. There is no such result regarding Maxwell fluid in the existing literature.