Open AccessMODELING AND ANALYSIS OF MAGNETIZED CHEMICALLY REACTIVE FLUID FLOW PAST OVER POROUS STRETCHED SHEET
Author(s) -
Fazal Haq,
Mujeeb Ur Rahman,
Syed M. Hussain
Publication year - 2019
Publication title -
journal of mountain area research
Language(s) - English
Resource type - Journals
eISSN - 2518-850X
pISSN - 2518-8496
DOI - 10.53874/jmar.v4i0.62
Subject(s) - nusselt number , sherwood number , mechanics , boundary layer , flow (mathematics) , joule heating , materials science , dimensionless quantity , parasitic drag , nonlinear system , fluid dynamics , partial differential equation , heat transfer , thermodynamics , physics , mathematics , mathematical analysis , composite material , reynolds number , turbulence , quantum mechanics
The aim of this article to inspect the effect of nonlinear thermal radiation, heat joule, viscous dissipation and magnetic field on viscoelastic second grade fluid. Flow is generated due to stretching of sheet. Flow features are studied considering hydrodynamic boundary conditions. Chemical reaction on the surface is further accounted. The flow governing nonlinear partial system of differential equations is obtained incorporating boundary layer assumptions. The dimensional model is made dimensionless by taking suitable transformations and then tackled via HAM for convergent series solution. Effects of flow controlling parameters on velocity, concentration, temperature, local skin friction coefficient, Sherwood number and Nusselt numbers are discussed by plotting graphs. Main observations are listed at the end.