MHD Peristaltic Flow of a Nanofluid with Newtonian Heating

The MHD Peristaltic flow and nanofluid with Newtonian heating in asymmetric channel are considered. The governing coupled equations are constructed “under long wavelength and low Reynold’s number approximation”. The Newtonian heating is controlled by a dimensionless conjugate parameter, which varies between walls of channel. HPM solutions are evaluated for nano particle fraction and heat transfer, while exact solutions are computed for stream function and pressure gradient. The important findings in this study are the variation of the “conjugate parameter for Newtonian heating γ Hartman number M, thermophoresis parameter Nt and Brownian motion parameter Nb on pressure rise, nano particle fraction, heat transfer phenomena, pressure gradient and streamlines”. The velocity field rises due to rise in M close the channel ramparts though velocity field declines at the centre of the canal.