NUMERICAL MODELLING OF A NON-LINEAR RADIATIVE NON-NEWTONIAN NANOFLUID FLOW WITH ARRHENIUS ACTIVATION ENERGY

This research has examined the flow properties of non-linear radiative nano non- Newtonian fluid via a stretched sheet, as well impact Arrhenius activation energy is also inspected. The basic equations, which comprised time-dependent pivotal were built using boundary layer approximations. As numerical methodology, an explicit finite difference (EFD) technique was exerted. been simulated employing FORTRAN in this case. A stability and convergence study performed to determine accuracy approach, system determined be converged at Pr≥ 0.062, Le≥ 0.016. Here, non-dimensional outcomes based on various physical characteristics are considered. effect these numerous explained visually represented for variety fields. Furthermore, examination streamlines isothermal lines demonstrated enhanced visualization flow. It revealed that pattern thermal radiation substantial heat transfer nanofluid. Moreover, when addressed, Lorentz force significant great agreement served confirmation current effort. sort potential uses mining, lubrication, biomedical