Analysis of Heat Transfer on Peristaltic Transport of Powell- Eyring Fluid in an Inclined Tapered Symmetric Channel with Hall and Ohm's Heating Influences

Abstract

In this paper, we present an analysis of heat transfer on peristaltic flow for Powell- Eyring fluid in an inclined symmetric tapered channel is discussed. Hall effect, velocity, thermal slip conditions, and Ohm's heating are taken into consideration. The governing equations for the balance of mass, momentum and energy are modeled, and then simplified by holding the consideration of long wavelength and low Renolds number approximation. Graphical results are given to analyze the behavior of the parameters emerging in the problem. Effect of Hall parameter and Hartman number on velocity axial have opposite characteristics.