Impact of Couple Stress and Rotation on Peristaltic Transport of a Powell-Eyring Fluid in an Inclined Asymmetric Channel with Hall and Joule Heating

Abstract

This study examines the effect of couple stress and rotation on the peristaltic transport of a Powell-Eyring in an inclined, tapered, asymmetrical channel. Considerations include the Hall effect, the velocity slip condition, and joule heating. Drawing on the low Reynolds number approximations and long wavelength, the governing equations for the equations of continuity, motion, and energy are modeled and simplified. The perturbation technique is a way to find the solution to a system of equations. To realize the behavior of the problem's parameters, graphic results have been produced through a set of figures in the MATHEMATICA software