Influence of Stefan blowing and variable thermal conductivity in magnetized flow of Sutterby nanofluid through porous medium

The classical viscous theory is limited to illustrating the characteristics of several materials like pseudoplastic and dilatant fluids. Sutterby fluid has features shear thinning thickening fluids because its Power law index. Therefore, this study considered an incompressible, time-independent electrically conducting flow across a rotating stretchable disk. disk experiences effect porous space. energy equation variable conductivity, heat source thermal relaxation time while mass exploits influence chemical reaction. aspects Buongiorno nanofluid are also examined in model. phenomenon Stefan blowing analysed through transfer rate at surface expressions first transferred into new system single independent then treated numerically via Runge–Kutta–Fehlberg (RKF) method combined shooting process. behaviour distinguished physical quantities discussed graphically on momentum, species fields. numeric data drag force, Sherwood number Nusselt calculated against parameters.