Computational analysis of radiative engine oil-based Prandtl–Eyring hybrid nanofluid flow with variable heat transfer using the Cattaneo–Christov heat flux model
Zahir Shah, Muhammad Rooman, Meshal Shutaywi
Abstract
resemblance modification. The numerical technique "shooting method" is used to solve the acquired nonlinear set of non - dimensional ODEs. The results are physically exemplified through tables and plots. It has been detected that the accumulation of nanomaterials in the engine oil, reduces the skin friction while accelerating the energy transfer rate. The velocity field significantly decelerates with the encouragement of the porosity factor, and volume fraction of NPs. However, the temperature profile significantly escalates with the encouragement of the porosity factor, and volume fraction of NPs.
Topics & Concepts
NanofluidRadiative transferHeat fluxHeat transferThermal radiationMechanicsPrandtl numberThermodynamicsRadiative fluxFlow (mathematics)Magnetic Prandtl numberPhysicsMaterials scienceTurbulenceOpticsNusselt numberReynolds numberNanofluid Flow and Heat TransferHeat Transfer MechanismsFluid Dynamics and Turbulent Flows