Heat Transfer Analysis of the MHD Stagnation Point Flow of a Non-Newtonian Tangent Hyperbolic Hybrid Nanofluid past a Non-Isothermal Flat Plate with Thermal Radiation Effect

Heat transfer phenomena are used in a variety of industries, including chemical devices, shipbuilding, power plants, electronic and medicinal plants. Propylene glycol, engine oil, water, ethylene glycol common single-phase heat liquids process industries thermal Therefore, the authors interested investigating magnetohydrodynamic flow water-based hybrid nanofluid containing ferrous graphene oxide nanoparticles past flat plate. The stagnation points, as well effects magnetic field radiation taken into account this analysis. non-Newtonian tangent hyperbolic flow, which is laminar incompressible, also considered to investigate behavior flow. proposed model has been solved analytically with help HAM. convergence HAM shown figure. hydrothermal characteristics nonisothermal plate at point affected by necessary parameters. results show that boosting volume fractions have significantly reduced velocity field, while increased augmenting nanoparticles. increasing power-law index augmented viscosity due escalated. However, impact opposite for field. Due direct relation between Weissenberg number relaxation time, greater profile,