Impact of Homogeneous-Heterogeneous Reactions on Flow of Non-Newtonian Ferrofluid over a Stretching Sheet

In this study, we considered heterogeneous and homogeneous chemical reactions in Eyring-Powell ferrofluid past a stretchable surface. addition, thermal radiation magnetic dipole impacts are also considered. The direct numerical solution of the governing model is complex. For this, simplified into coupled ordinary differential equations (ODEs) with dimensionless variables. Then, determined computational resulting transformed ODE system via Runge-Kutta (RK) method. interesting engineering parameters on temperature, velocity, concatenation behaviors presented through graphs. We concluded that velocity field reduced for higher values ferromagnetic parameter ? fluid material ß id="M2"> H arises temperature id="M3"> R while Prandtl number id="M4"> Pr dissipation id="M5"> ? 1 . obtained results current work compared published work, found between them good agreement can be seen table. characteristics skin fraction Nusselt presented.