Abstract
This study investigates the radiative heat and mass transfer effects on squeezed flow of unsteady MHD second order fluid with heat source and chemical reaction. This study is carried out between two parallel circular plates under the assumption of axisymmetric squeezed flow. Similarity transform method is used to reduce the system of partial differential equation (PDE’s) into the system of ordinary differential equations (ODE’s). Advanced Collocation Method is used to find the solutions of nonlinear ordinary differential equations for velocity profile, pressure distribution, and temperature and concentration field. Effects of pertinent physical parameters on the computational results for the radial and axial velocity, pressure distrinution, and temperature and concentration profile are presented via graphs. The shear stress, heat transfer rate and mass transfer rate on the upper wall are also shown by the help of graphs.
Highlights
It is a critical issue of modern world to develop the new techniques for renewable energy
Saxena SS & Dubey GK [10] discussed the effect of heat and mass transfer for the flow of viscoelastic fluid with heat source, thermal radiation and slip boundary conditions
The broad aim of present work is to analyze the radiative heat and mass transfer flow of MHD second order fluid between two parallel discs with chemical reaction and heat source subjected to squeezing system
Summary
It is a critical issue of modern world to develop the new techniques for renewable energy. Saxena SS & Dubey GK [10] discussed the effect of heat and mass transfer for the flow of viscoelastic fluid with heat source, thermal radiation and slip boundary conditions.
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