Radiation Effects on Inclined Magnetohydrodynamics Mixed Convection Boundary Layer Flow of Hybrid Nanofluids over a Moving and Static Wedge

Nowadays, hybrid nanofluids play an important role in heat transfer systems. They are a good alternative to increase the efficiency of and save energy. Thermal radiation mixed convection flow past permeable moving stationary wedge were studied this research. This research uses water as base fluid investigate effects silver (Ag) magnesium oxide (MgO) nanoparticles. Similarity transformation techniques used convert partial differential equations ordinary equations, which is then solved numerically by applying implicit finite difference Keller box method. The results illustrated graphically show behavior velocity temperature profiles, well skin friction Nusselt number. Increasing parameters aligned magnetic field, field interaction, convection, angle parameter higher profiles but lower profiles. As nanoparticle volume fraction increase, rises decreases. With exception parameter, number alignment interaction Ag MgO rise. result these findings, numbers wedges higher, than those against wedges. In addition, comparison with previously published presented, excellent agreement discovered. will contribute knowledge mathematics bringing additional information for mathematician interested future on nanofluids.