Unsteady convective diffusion with Interphase mass transfer in Bingham fluid through porous medium

Abstract

The current study goal is to disperse a solute at the parallel channel boundary walls as it undergoes an irreversible first-order chemical reaction. The rheological parameter that occurs from suspension in the fluid affects the convection coefficient and dispersion coefficient. The interphase mass transfer is the main cause of the exchange coefficient, which is unaffected by the solvent fluid velocity. The convection and dispersion coefficients are also affected by the wall-catalyzed process. The transfer of drugs or nutrients in plasma during blood flow through porous media can be understood by studying solute dispersion. An essential part of circulatory flow is exceed absorption. The results show that wall absorption has a significant impact on transport coefficients.