Litcius/Paper detail

Swimming of Motile Gyrotactic Microorganisms and Nanoparticles in Blood Flow Through Anisotropically Tapered Arteries

M. M. Bhatti, Marín Marín, A. Zeeshan, R. Ellahi, Sara I. Abdelsalam

2020Frontiers in Physics180 citationsDOIOpen Access PDF

Abstract

In the present article, we have presented a theoretical study on the swimming of migratory gyrotactic microorganisms in a non-Newtonian blood-based nanofluid via an anisotropically narrowing artery. Sutterby fluid model is used to understand the rheology of the blood as a non-Newtonian fluid model. This fluid pattern has the ability to show Newtonian and non-Newtonian features. The mathematical formulation is performed via continuity, temperature, motile microorganism, momentum, and concentration equation. The series solutions are obtained using the perturbation scheme up to the third-order approximation. The resulting solutions are discussed with the help of graphs for all the leading parameters. The graphical results are also presented for non-tapered, diverging, and converging artery. We further discuss the velocity, temperature, swimming microorganism and temperature distribution. Moreover, the variation of impedance and the impact of wall shear stress are discussed and presented through the graphs.

Topics & Concepts

Newtonian fluidMechanicsNon-Newtonian fluidShear stressPerturbation (astronomy)Generalized Newtonian fluidRheologyNanofluidPhysicsMaterials scienceClassical mechanicsShear rateHeat transferThermodynamicsQuantum mechanicsNanofluid Flow and Heat TransferFluid Dynamics and Turbulent FlowsLattice Boltzmann Simulation Studies