Litcius/Paper detail

Heat and mass transport aspect on magnetised Jeffery fluid flow over a stretching cylinder with the Cattaneo–Christov heat flux model

Rafi Ullah, M. Israr Ur Rehman, Aamir Hamid, Shazma Arooj, Waqar A. Khan

2023Molecular Physics20 citationsDOI

Abstract

This study offers the impacts of MHD Jeffery fluid research on a stretching cylinder. The Cattaneo–Christov heat model is acquired instead of the Fourier law of heat conduction to construct the energy equation. The order analysis of a fluid model is performed using the boundary layer theory. On differential equations, appropriate similarity transformations are used to attain the differential equations. The following nonlinear equations were then mathematically solved utilising the shooting method. The visual inspection of the conclusions of the velocity, thermal and concentration profiles is completed for several important thermophysical parameters. For numerous thermos physical variables, the numerical variation in the valuations of the mass transport rate, coefficient of skin friction and heat rate transfer has been assessed and provided in a table. The main conclusions of the study show that temperature, concentration distribution and flow speed all decrease as the curvature parameter increases. It has also been deduced in this investigation that the higher values of the Lewis number higher the mass transfer rate and lower the heat flux at the surface of the cylinder. These results exhibit a more favourable agreement across all findings when compared to previous findings.

Topics & Concepts

Heat fluxHeat transferMechanicsThermal conductionCylinderCurvatureThermodynamicsPhysicsClassical mechanicsChemistryMathematicsGeometryNanofluid Flow and Heat TransferFluid Dynamics and Turbulent FlowsHeat Transfer Mechanisms