Study on Darcy-Forchheimer Flow and MHD Boundary Layer Flow with Heat Transfer Characteristics of Williamson Nanofluid Over Curved Stretching Surface.

Abstract

Abstract Principle targets of this paper are to consider the Darcy-Forcheimer and magneto hydrodynamic limit layer stream with warmth and mass exchange of Williamson nanofluid over a bended extending surface. To create the stream, a non-straight bended extending surface is utilized. Likewise the capacities thermophoretic dispersion and irregular movement are created in the stream. The pertinent overseeing limit layer fractional differential conditions are changed into common differential conditions by utilizing existing comparability changes. These nonlinear coupled normal differential conditions, subject to the fitting limit conditions, are then addressed by utilizing bvp4c strategy. The impacts of the actual boundaries on the stream, heat move and nanoparticle fixation qualities of the issue are introduced through diagrams and are talked about in detail. The skin rubbing coefficient, neighborhood Nusselt number and Sherwood numbers are figured. In light of these plots the ends are given, and got results are tried for their exactness.