Numerical Approach for Boundary Layer Flow of Sutter by Fluid with Heat Generation or Absorption and Chemical Reaction

Abstract

The article presented here, seeks to research the boundary layer flow of heat and mass transfer in a non - Newtonian fluid combined with the Cattaneo - Christov heat flux model with heat generation or absorption and chemical reaction. The combined method is abridged taping appropriate related keys and resolved mathematically by combining the shooting method with the Runge-Kutta of the fourth method. The purpose is to investigate heat transfer using a revised from of the Fourier legislation of heat conduction known as Cattaneo - Christov temperature flux model. The factors that impact major guidelines are considered. The calculated effects of speed, heat and focus information are shown through graphs. Significant results are the following:  The shear stress of the wall structure shows reverses designs for shear thinning and shear thickening liquids. The temperature and the thermal boundary coating stiffness raises with upsurge in high temperature era or absorption.