A Galerkin strategy for tri-hybridized mixture in ethylene glycol comprising variable diffusion and thermal conductivity using non-Fourier’s theory

Abstract This research is conducted to investigate heat and mass transport past over a stretched surface having pores in pseudo-plastic model. To study porosity effect, Darcy Forchheimer relation used. Thermal expressions are derived by engaging the double diffusion theories as extensively used researchers proposed Cattaneo Christov. Furthermore, thermal performance studied mixing tri-hybrid nanoparticles material. The phenomenon of boundary layer derive complex correlation for convert model partial differential equations into ordinary (ODE) along with appropriate similarity transformation. transfigured ODEs coupled nonlinear nature, exact solution not possible. approximate numerically, finite element scheme (FES) code developed MAPLE 18.0 graphical results, grid independent survey, tabular results. obtained results compared published findings that confirm accuracy authenticity engaged scheme. From performed analysis, it concluded FES can be applied engineering problems. monitored essential boost higher estimation Schmidt number control diffusion.