Hydromagnetic boundary layer flow with heat transfer past a rotating disc embedded in a porous medium
Kushal Sharma, Neha Vijay, Sanjay Kumar, Oluwole Daniel Makinde
Abstract
Abstract In this study, the effect of Coriolis force along with the Darcy parameter has been analyzed on time‐dependent forced convective boundary layer flow of conducting fluids over a rotating disc embedded in a porous medium. The modeled system is solved by power series approximations in the Mathematica environment shooted values. The significant impact of the rheological properties, such as Darcy parameter and Prandtl number , of water, hydrocarbon, and kerosene‐based conducting fluids for the deviation of parameter (Karman) has been noted and then analyzed qualitatively and quantitatively with graphs and tables.
Topics & Concepts
Prandtl numberMechanicsBoundary layerPorous mediumDarcy numberHeat transferFlow (mathematics)KeroseneMaterials sciencePhysicsPorosityThermodynamicsNatural convectionRayleigh numberComposite materialNanofluid Flow and Heat TransferFluid Dynamics and Turbulent FlowsHeat Transfer Mechanisms