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Thermal and velocity slip effects in mixed convection flow of magnetized ceramic nanofluids over a thin needle with variable physical properties

M.K. Nayak, Rashid Mehmood, Sujit Mishra, A. P. Misra, Taseer Muhammad

2021Waves in Random and Complex Media20 citationsDOI

Abstract

The impact of thermal and velocity slips on mixed convection magnetohydrodynamic flow of ceramic nanofluids past a thin needle with variable physical properties has been investigated in the present study. Numeric computation of nonlinear differential expressions has been executed by Runge–Kutta Fehlberg-quadrature method for varying physical parameters. The study is more important in contributing to medicine and engineering. Fluid velocity and temperature exhibit opposite behavior in relation to amplifying Hartmann number. The rise in slip parameters causes the shrinkage of thermal boundary layer which in turn yields significantly greater heat transfer rate. Flow velocity is an increasing function of Richardson number. Higher surface viscous drag is attained for CuO suspension while least of that is obtained for TiO2 suspension.

Topics & Concepts

NanofluidMechanicsCombined forced and natural convectionMaterials scienceThermalCeramicFlow (mathematics)Slip (aerodynamics)ConvectionThermodynamicsComposite materialNatural convectionPhysicsHeat transferNanofluid Flow and Heat TransferFluid Dynamics and Thin FilmsHeat Transfer Mechanisms
Thermal and velocity slip effects in mixed convection flow of magnetized ceramic nanofluids over a thin needle with variable physical properties | Litcius