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Chemical reaction and thermal radiation effects on magnetohydrodynamics flow of Casson–Williamson nanofluid over a porous stretching surface

Pooja P. Humane, Vishwambhar S. Patil, Amar B. Patil

2021Proceedings of the Institution of Mechanical Engineers Part E Journal of Process Mechanical Engineering70 citationsDOI

Abstract

The flow of Casson–Williamson fluid on a stretching surface is considered for the study. The movement of fluid is examined under the effect of external magnetic field, thermal radiation and chemical consequences. The model is formed by considering all the physical aspects responsible for the physical mechanism. The formed mathematical model (partial differential equation) is numerically solved after transforming it into an ordinary one (ordinary differential equation) via similarity invariants. The physical mechanism for velocity, temperature, and concentration is examined through the associated parameters like radiation index, Williamson and Casson parameter, suction/injection parameter, porosity index, and chemical reaction parameter.

Topics & Concepts

NanofluidPartial differential equationThermal radiationPorosityMagnetohydrodynamicsOrdinary differential equationFlow (mathematics)MechanicsSuctionThermodynamicsMaterials scienceThermalMagnetic fieldPhysicsMathematicsDifferential equationMathematical analysisComposite materialQuantum mechanicsNanofluid Flow and Heat TransferHeat Transfer MechanismsFluid Dynamics and Turbulent Flows
Chemical reaction and thermal radiation effects on magnetohydrodynamics flow of Casson–Williamson nanofluid over a porous stretching surface | Litcius