Aligned Magnetohydrodynamics (MHD) Flow of Hybrid Nanofluid Over a Vertical Plate Through Porous Medium

The future research on hybrid nanofluids need to be done as there are many applications of nanofluids. Some them electro-mechanical, renewable energy and manufacturing process application also the in automotive cooling. Therefore, this numerical study is conducted investigate aligned magnetohydrodynamics (MHD) flow nanofluid over a vertical plate through porous medium. base fluid (water), silver copper oxide flowed presence MHD medium with boundary conditions constant wall temperature by taking few types parameters into consideration. By using similarity transformation, governing nonlinear partial differential equations transformed ordinary equations. Keller Box method applied solve numerically system solved Fortran programming. results illustrated graphically show behavior velocity skin friction Nusselt number hybrids affected parameters. It found that profiles increase, decrease when angle magnetic field, interaction parameter local Grashof increase while decrease, volume fraction nanoparticles increase. Besides, Ag-CuO-water less than CuO-water higher CuO-water.