Viscous dissipation performance on stagnation point flow of Jeffrey fluid inspired by internal heat generation and chemical reaction

Abstract

Heat transfer analysis on a stagnation point boundary layer flow of a Jeffrey fluid over a stretching surface with a parallel external flow has been discussed in this paper in the presence of viscous dissipation. Moreover, distinctive features of heat and mass transfer with chemical effects have been examined. Convective boundary condition has been invoked with internal heat generation process. Exact solution for velocity profile is used. The numerical solution for temperature and concentration is acquired by shooting method. The explanation and analysis of the physical parameters of interest are allotted by means of graphical results used for dimensionless velocity, temperature, concentration, skin friction coefficient, heat and mass fluxes. Special emphasis has been given to flow patterns through stream functions. It is notable that temperature is a decreasing function of Prandtl number and an increasing function of Eckert number. This study is a benchmark for several manufacturing and handling problems in pharmaceutical industry and food processing machines.