Unsteady solute dispersion in Bingham fluid flow with combined effects of wall absorption, magnetic field and electric field

Abstract

The objective of the present investigation is to disseminate a solute at the boundary wavy walls of the parallel channel while it is undergoing an irreversible first-order chemical reaction. This rheological characteristic, which results from suspension in the fluid, influences the dispersion and convection coefficients. The exchange coefficient, which is independent of the solvent fluid velocity, is primarily caused by the interphase mass transfer. Additionally impacted by the wall-catalyzed process are the convection and dispersion coefficients. Solute dispersion can be studied to understand how medications or nutrients are transferred in plasma during blood flow via porous surfaces. Beyond absorption, circulatory flow is a vital component. Our results demonstrate that wavy wall absorption significantly affects transport coefficients.