Impact of slip boundary conditions, magnetic force, and porous medium on blood flow of Jeffrey fluid
Mubbashar Nazeer, Ahmad Aziz Al Ahamdi, Ali Alzaed, Mamdooh Alwetaishi, M. Waqas Nazir, M. Ijaz Khan
Abstract
Abstract In this study, the comparative study of the peristaltic flow of Newtonian and non‐Newtonian fluids under the consideration of the magnetic field in the porous inclined channel is investigated. The effects of velocity slip and convective boundary conditions are also considered. Moreover, the variable liquid properties are also taken. The mathematical model is developed with the help of the Jeffrey fluid model in the form of partial differential equations. After that, convert them into dimensional form by using the dimensionless quantities. The resultant system of equations is solved through the perturbation method and presented the solution of velocity, temperature, and concentration in analytical form. The impact of physical parameters on the velocity, temperature, and concentration profiles are highlighted with the help of the graphs. The outcomes revealed that the magnetic parameter slows down the velocity of the fluid while the Darcy number enhanced the velocity and temperature distribution and suppressed the concentration profile.