Impact of Thermal Radiation on MHD GO-Fe2O4/EG Flow and Heat Transfer over a Moving Surface

The heat transmission in a non-Newtonian hybrid nanofluid that combines particles of graphene oxide (GO) and iron dioxide (Fe2O4) with the base fluid chosen as ethylene glycol (EG) is analyzed, including effects radiation magnetic influence. flow assumed to be asymmetric because it flows along horizontal shrinking surface response external inducements. mathematically modelled partial differential equations (PDEs) form then derived into ordinary (ODEs) by implementing proper similarity transformation PDEs. mathematical formulation algorithmically estimated employing bvp4c solver MATLAB. parameters’ on skin friction measurement, local Nusselt number, entropy generation, velocity profile, temperature profile are investigated explained. This finding illustrated augmented between 13.7% 66.5% field, slips, concentration GO particles. As for ratio, only thermal slip will affect upsurge range 99.8–147% taken parameter values. case found increase 16.6% 43.9% slip, Eckert number.