Numerical Simulation of Homogeneous–Heterogeneous Reactions through a Hybrid Nanofluid Flowing over a Rotating Disc for Solar Heating Applications

Several materials, such as aluminum and copper, exhibit non-Newtonian rheological behaviors. Aluminum copper nanoparticles are ideal for wiring power grids, including overhead transmission lines local distribution lines, because they provide a better conductivity-to-weight ratio than bulk copper; also some of the most common materials used in electrical applications. Therefore, current investigation inspected flow characteristics homogeneous–heterogeneous reactions hybrid nanofluid flowing over rotating disc. The velocity slip condition was examined. energy equation developed by employing first law thermodynamics. Mixed convection thermal radiation convective effect were addressed. dimensionless governing models solved to give best possible investigative solution using fourth- fifth-order Runge–Kutta–Felhberg numerical method. effects different influential variables on temperature scrutinized graphically. variation various sundry parameters friction factor Nusselt numbers analyzed. results revealed that gradient increased significantly augmented values mixed parameter. Here, more rapidly nanoliquid nanofluid. enhanced due