Numerical Simulation of MHD Peristaltic Flow with Variable Electrical Conductivity and Joule Dissipation Using Generalized Differential Quadrature Method

Muhammad Qasim,Zafar Ali,Abderrahim Wakif,Zoubair Boulahia

Tab. 3 Comparison between our numerical results and the results of Srinivas and Kothandapani[29] for the ideal heat transfer coefficient $% Z=h_{1}^{(1)}\theta _{y}^{(1)}\left( x,h_{1}\right) $ in the case where $% \beta =0,b=0.6,d=1.5$ and $\phi =\pi /4.$