Effect of Rotation and Hall on Peristaltic Movement with Joule Heating for Powell-Eyring Fluid in an Inclined Tapered Asymmetrical Channel

Abstract

In this study, we discussed the impact of rotation on the peristaltic transport of Powell-Eyring fluid in an inclined, tapered, asymmetrical channel. Considerations include the Hall effect, thermal slip, velocity slip conditions and joule heating. By keeping in mind the low Reynolds number approximations and long wavelength, the governing equations for the equations of continuity, motion, and energy are modeled and then made simpler. It has been noted that the effect of rotation on the axial velocity, stream function and temperature increases while the heat transfer coefficient decreases with its increase. The opposite effect between the Hartmann number and the Hall parameter is evident in the study. The method used to locate the solution to systems of equations is the perturbation technique, which is studied using the MATHEMATICA software.