Heat transport performance of hydromagnetic hybrid nanofluid under the slip regime

Heat transport analysis corresponded to converging/diverging consideration has attained the attensions because of engineering and industrial utilization. Typical examples encompass cold drawing operation in polymer industry, enhancement of rate of heat transport during process of heat exchangers for milk flowing, molten polymers extrusion via converging dies, processing plants, power stations, and numerous others. Due to this fact, the present analysis has been established. The current research describes the hybrid nanofluid flow through convergent/divergent channel in the regime of hydromagnetic phenomenon. Here, water based nanoparticles i.e., graphene oxide and polystyrene are considered. Heat transport under the viscous dissipation and heat generation/ absorption is evaluated. Velocity slip condition is also imposed on channel wall. Suitable variables are employed to get strong form of non-dimensional coupled equations which are solved by using homotopic analytical technique. The results for velocity and temperature against pertinent parameters are analyzed through graphs. Effects of skin friction and Nusselt numbers are presented through graphs. The current investigation tells us that surface drag has diminished for Reynolds and Hartmann number. Furthermore, dissipative factor intensifies the heat transport rate. Owing by such applications, the present examination has been established.