Effects of Chemical Species and Nonlinear Thermal Radiation on 3d Maxwell Nanofluid Flow With Double Stratification

Abstract

This mathematical analysis refined, magnetohydrodynamic (MHD) 3D flow of Maxwell nonliquid in the existence of heat generation/absorption. Effects of nonlinear thermal radiation and chemical reaction are also added. Flow analysis is performed in the presence of thermal and concentration stratification boundary conditions. Boundary layer system of nonlinear partial differential equations (PDEs) are converted into ordinary differential equations with high nonlinearity. Homotropy Analysis method (HAM) is employed to regulate the mathematical analysis. The obtained results for velocity, temperature and concentration profiles are analyzed graphically for various admissible parameters. The impact of the Nusselt number for distinct parameters is also discussed and explored. The results obtained in the analysis are substantiated by erecting a comparative table with an established result in the literature. An outstanding matching is achieved in this regard.