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Novel Aspects of Cilia-Driven Flow of Viscoelastic Fluid through a Non-Darcy Medium under the Influence of an Induced Magnetic Field and Heat Transfer

M. M. Bhatti, Fehid Ishtiaq, R. Ellahi, Sadiq M. Sait

2023Mathematics28 citationsDOIOpen Access PDF

Abstract

The spontaneous movement of natural motile cilia in the form of metachronal waves is responsible for fluid transport. These cilia, in particular, play important roles in locomotion, feeding, liquid pumping, and cell delivery. On the other hand, artificial cilia can be useful in lab-on-a-chip devices for manipulation processes. In this study, a novel model for the ciliated tapered channel in Sutterby fluid flow under the impact of an induced magnetic field and heat transport is proposed. The Darcy–Brinkman–Forchheimer law for porous media with a viscous dissipation function is considered. With the help of lubrication theory, the simplified non-linear form of the leading equation with cilia-oriented boundary conditions is achieved. The analytical results of differential equations are based on the topological perturbation approach. The numerical simulation is performed to elaborate on the physical interpretations of emerging parameters through computer software.

Topics & Concepts

MechanicsFluid dynamicsPorous mediumViscoelasticityDarcy numberPhysicsHeat transferLubricationCiliumFluidicsLubrication theoryMagnetic fieldDarcy's lawClassical mechanicsViscous liquidMaterials scienceNatural convectionPorosityThermodynamicsEngineeringRayleigh numberCell biologyBiologyQuantum mechanicsAerospace engineeringComposite materialLattice Boltzmann Simulation StudiesNanofluid Flow and Heat TransferFluid Dynamics and Thin Films
Novel Aspects of Cilia-Driven Flow of Viscoelastic Fluid through a Non-Darcy Medium under the Influence of an Induced Magnetic Field and Heat Transfer | Litcius