Non-isothermal Bingham fluid flow between two horizontal parallel plates with Ion-slip and Hall currents

Abstract This study presents the numerical solution of velocity and temperature fields based on mass conservation, momentum energy balances for time-dependent Couette-Poiseuille flow Bingham materials through channels. The channel fluid concerns cement paste in building industry mudflow drilling industry. specific aim is to introduce magnetohydrodynamic (MHD) phenomena specified by both Ion-slip Hall currents into non-isothermal a theoretical approach. constitutive equation formulated generalized Newtonian technique solved employing explicit Finite Difference Method (FDM) using MATLAB R2015a Compaq Visual FORTRAN 6.6a both. For exactness performance estimations, criteria stabilization convergence factor are analyzed. profiles discussed individually at moving stationary walls channel. It observed that accelerate flow, distributions reach steady-state situation earlier than distributions. Furthermore, dominance MHD parameters distributions, shear stress, Nusselt number discussed.