An MHD Flow of Non-Newtonian Fluid Due to a Porous Stretching/Shrinking Sheet with Mass Transfer

An examination is carried out for three-dimensional incompressible viscoelastic fluid flow over a porous stretching/shrinking sheet with hybrid nanoparticles copper-alumina (Cu−Al2O3) in base water (H2O). The uniform magnetic field of strength B0 applied perpendicular to the and considered Navier slip. mass transfer chemical reaction rate. governing equation defined forms system partial differential equations, which are then transformed into ordinary equations via similarity transformations. goal find exact analytical solution, unique solution determined by considering boundary layer theory. Furthermore, obtained solved get velocity concentration fields exponential form hypergeometric form, respectively. solutions temperature profiles, Skin friction, Nusselt number. These findings beneficial future research present area. parameters field, Inverse Darcy number, slip parameter, influence flow. effect these on will be analyzed through graphs. friction number also analyzed. This work found many applications machining manufacturing, solar energy, MHD meters pumps, power generators, geothermal recovery, filtering devices, catalytic reactors, etc.