Radiative flow of rheological material considering heat generation by stretchable cylinder

Background and objective: Magnetohydrodynamic effect has various industrial applications in crystal growth, manufacturing, nuclear reactor cooling, mineral casting, polymer extrusion, cable coating, metallurgy, liquid–metal cooling etc. In view of these application here we addressed the magnetohydrodynamic radiative Reiner-Rivlin fluid flow by stretching cylinder. Consideration of heat generation and magnetic field scrutinizes the heat transport process. Modeling for binary chemical reaction is presented. Methodology: Governing nonlinear ordinary systems through suitable transformation are obtained. The set of non-dimensional systems are computed for local similar solution by ND-solve method. Conclusions: Temperature, fluid flow and concentration have been analyzed. Computations for coefficient of skin friction, temperature gradient and solutal transport rate are organized. Magnetic field outcome for velocity and temperature is not similar. Enhancement in fluid flow versus curvature variable is found. Reduction occurs in fluid friction and velocity for Reiner-Rivlin liquid variable. Thermal field versus Prandtl number is decayed. Outcomes for magnetic field and radiation on temperature are alike. An augmentation of concentration is seen for curvature variable. Concentration versus reaction variable is decreased. Nusselt number for radiation and magnetic field is not similar. Large approximation of reaction variable boosts up mass transport rate.