Multiple Slip Effects on Magnetohydrodynamic Casson Fluid Flow in the Presence Soret and Thermal Radiation

  • K. Veera Reddy, G. Venkata Ramana Reddy

Abstract

Purpose: This article extensively discussed the numerical outcomes for the steady and mixed convection two-dimensional motion of multiple slip contributions on MHD Casson liquid with Soret alongside thermal radiation.

Methodology: The flow model equations are partial differential equations (PDEs) which are characterized as species momentum, and energy equations. These model equations are simplified to be total differential equations (ODEs) by utilizing similarity transformation. The simplified nonlinear ODEs are solved by utilizing Runge-kutta Fehlberg together with the shooting approach.

Findings: A considerable value of the magnetic parameter is found to decrease the velocity profile. The presence of the magnetism in the flow drags the Casson motion by decreasing the hydrodynamic boundary layer. The contribution of key parameters on the concentration, skin friction, temperature, velocity, rate of heat and mass movement are qualitatively and graphically presented.

Originality:  This study is unique because it considered the multiple slip contributions of MHD Casson fluid motion under the influence of linear radiation and Soret mechanism. Hence, the present study is found useful in isotope separation and in the thermal engineering field.

Published
2021-10-06
How to Cite
K. Veera Reddy, G. Venkata Ramana Reddy. (2021). Multiple Slip Effects on Magnetohydrodynamic Casson Fluid Flow in the Presence Soret and Thermal Radiation. Design Engineering, 15972-15981. Retrieved from http://www.thedesignengineering.com/index.php/DE/article/view/5130
Section
Articles