Joule Heating and Mass Transfer on MHD Peristaltic Hemodynamic Jeffery Fluid with Porous Medium in a Tapered Vertical Channel-Blood Flow Analysis Model

Abstract

The aim of the present attempt was simultaneous effects of joule heating and mass transfer on hydromagnetic peristaltic hemodynamic Jeffery fluid model filled with porous medium in a tapered vertical channel. The Mathematical modeling is investigated by utilizing long wavelength and low Reynolds number assumptions. The result indicates an appreciable increase in the temperature with increase in β, Br, Pr, Da and M whereas the temperature of the fluid diminished with an increase in Jeffery fluid (λ 1) and we notice that the temperature profile is found almost parabolic in nature. The concentration distribution decreases when increase in β, Pr, Sc, Br and Sr in an entire asymmetric vertical tapered channel.