Entropy Generation Analysis for MHD Flow of Hybrid Nanofluids over a Curved Stretching Surface with Shape Effects

The characteristic of magnetohydrodynamic flow viscous fluids is explained here. energy equation behavior studied in the presence heat, dissipation, and joule heating. major emphasis this study physical entropy optimization rate. Based on implementation curvilinear coordinates, basic equations are established. Nonlinear partial differential expressions reduced by appropriate transformation to ordinary system. In engineering industrial processes, nanoparticles their shape have practical consequences. For reason, we give a detailed investigation impacts through curved stretching surface nanoparticles. into number nonlinear which solved numerically using useful numerical approach called Runge-Kutta-4 (RK-4). shooting method first used reduce problems order, then RK-4 for solution. Impacts optimization, Bejan number, velocity, concentration, temperature several parameters graphically studied.