Effect of convective conditions in a radiative peristaltic flow of pseudoplastic nanofluid through a porous medium in a tapered an inclined asymmetric channel

Abstract

This paper is study to an effect of magnetohydrodynamic and thermic radiation upon the peristalsis flow of a pseudoplastic nano-fluid through a porous medium in an inclined tapered asymmetric canal and the walls achieve convection boundary conditions. The dominating equations for the balance of continuity, momentum, and energy of the pseudoplastic nano-fluid are formulating and simplify during the concepts small Reynolds number and a long-wavelength. The effect of parameters on the transport characteristics, heat transfer coefficient and pressure rise has been studied, the velocity, the temperature, the heat transfer coefficient, the pumping characteristics, Nusselt number and the trapping phenomenon for pseudoplastic nanofluid particles resulted from a solution of nonlinear (PDEs) system and have been discussed through the graphics formats and trapping phenomenon.