Chemical Reaction using Free Convective Flux MHD through a Vertical Porous Plate with Heat Absorption in Case of Transverse Magnetic Field and Heat Radiation

  • P. Valsamy, G. Arunagiri
Keywords: Vertical porous plate, Convection, Heat absorption, MHD flow, Fixed heat and mass flux, Laplace Transform and Transverse magnetic field.

Abstract

This problem reflects the heat and mass transfer of mhd from a viscous flux  to a vertical porous plate with heat generation in the presence of a transversal magnetic field. The  PDEs governance system is converted into a nonlinear ODE system and then solved analytically using the Laplace transformation. The impact of flow parameters on the actual flow is discussed in charts and tables. Increasing radiation parameters increases both velocity and temperature fields. In addition, it is recognized that the velocity field increases due to the porosity parameter, while it shows the opposite nature of the magnetic parameter. Moreover, we calculated the variance of the friction factor for different values of the physical parameters. We have noticed that the coefficient of friction is a function of magnifying the magnetic field and chemical reaction parameters.

Published
2021-11-23
How to Cite
G. Arunagiri, P. V. (2021). Chemical Reaction using Free Convective Flux MHD through a Vertical Porous Plate with Heat Absorption in Case of Transverse Magnetic Field and Heat Radiation. Design Engineering, 15260-15277. Retrieved from http://www.thedesignengineering.com/index.php/DE/article/view/6661
Section
Articles