Litcius/Paper detail

A revised viscoelastic micropolar nanofluid model with motile micro‐organisms and variable thermal conductivity

Sami Ullah Khan, M. M. Bhatti, Arshad Riaz

2020Heat Transfer25 citationsDOI

Abstract

Abstract In the present study, a magnetized micropolar nanofluid and motile micro‐organism with variable thermal conductivity over a moving surface have been discussed. The mathematical modeling has been formulated using a second‐grade fluid model and a revised form of the micropolar fluid model. The governing fluid contains micro‐organisms and nanoparticles. The resulting nonlinear mathematical differential equations have been solved with the help of the homotopy analysis method. The graphical and physical features of buoyancy force, micro‐organisms, magnetic field, microrotation, and variable thermal conductivity have been discussed in detail. The numerical results for Nusselt number, motile density number, and Sherwood number are presented with the help of tables. According to the graphical effects, it is noted that the buoyancy ratio and the bioconvection parameter resist the fluid motion. An enhancement in the temperature profile is observed due to the increment in thermal conductivity. Peclet number tends to diminish the motile density profile; however, the viscoelastic parameter magnifies the motile density profile.

Topics & Concepts

NanofluidThermal conductivityNusselt numberBuoyancyMechanicsPéclet numberHomotopy analysis methodMaterials scienceHeat transferThermodynamicsPhysicsNonlinear systemReynolds numberQuantum mechanicsTurbulenceNanofluid Flow and Heat TransferFluid Dynamics and Turbulent FlowsRheology and Fluid Dynamics Studies