Quadratic Convective Nanofluid Flow at a Three-Dimensional Stagnation Point with the g-Jitter Effect

The nonlinear density variation with temperature happens in many thermal applications like solar collectors, energy production, heat exchangers, and combustions, it gives a significant impact on transfer fluid flows. Thus, convective of an unsteady stagnation point flow under the influence gravity modulation presence water-based nanoparticles alumina (Al2O3) is studied here. Suitable variables are utilized to reduce highly coupled governing equations into system dimensionless simple partial differential equations. Keller-box method then applied solve consequent Velocity profiles for various values pertinent parameters displayed graphically discussed. results indicate that quadratic convection has enhanced transport. Furthermore, parameter volume fractions have delivered positive effect skin friction rate transfer.