Numerical analysis of nonlinear mixed convective MHD chemically reacting flow of Prandtl-Eyring nanofluids in the presence of activation energy and Joule heating

The aim of the study is to explore nonlinear mixed convection flow of nanomaterials (Prandtl-Eyring nanoliquid) with activation energy. Analysis of cross-diffusion (Soret and Dufour) impacts is addressed. Features of nanoliquid are analysed with thermophoresis and Brownian diffusion. Consideration of proper variables yields ordinary differential equations. Relevant system is tackled via numerical scheme. Significant outcomes are depicted graphically and elaborated in the relevance of sundry variables. Moreover, analysis of temperature and velocity gradients at the surface versus various variables of interest is tabulated and inspected.

Automated summary

This study aims to explore the nonlinear mixed convection flow of nanomaterials with activation energy, analyzing the impacts of cross-diffusion and characteristics of nanoliquid. Ordinary differential equations are obtained through consideration of proper variables, and the relevant system is tackled with a numerical scheme. Significant outcomes are depicted graphically and elaborated on the relevance of various variables, with the analysis of temperature and velocity gradients at the surface versus different variables being tabulated and inspected.