Litcius/Paper detail

An IFDM analysis of low Reynolds number flow generated in a complex wavy curved passage formed by artificial beating cilia

Zeeshan Asghar, Muhammad Waris Saeed Khan, Wasfı Shatanawi, Muhammad Asif Gondal, Abuzar Ghaffari

2022International Journal of Modern Physics B62 citationsDOI

Abstract

Mother nature utilizes an assembly of beating cilia to transport liquid in various circumstances. The arrays of these hair-like cellular appendages also aid in propelling microorganisms like spermatozoa and paramecium. In our implicit finite difference analysis, we present a pumping performance of a curved channel comprising mucus flow induced via active cilium. The non-Newtonian mucus is modelled as Carreau fluid model. The undulating cilia attached with curved walls are assumed to be complex wavy. The tips of these cilia form a complex wavy peristaltic curved passage with porous medium effects. Well-known continuity and momentum equations (in curvilinear coordinates) are utilized to model the flow problem. Cilia-driven flow is creeping which is based on low Reynolds number assumption. Moreover, long wavelength assumption is also employed in this analysis. The reduced fourth-order BVP is solved via implicit finite difference method (IFDM). The computed results are plotted by using MATLAB (2021a). The mucus velocity is plotted at three different cross-sections and flow rates. Moreover, velocity of mucus, pressure gradient, pressure rise, and level curves are also expounded for various rheological, porous and cilia-based parameters. A special case of straight passage is also presented in the graphical result section.

Topics & Concepts

Reynolds numberMechanicsCurvilinear coordinatesCiliumFlow (mathematics)PhysicsFlow separationPeristalsisPressure gradientClassical mechanicsMaterials scienceAnatomyBiologyBoundary layerTurbulenceQuantum mechanicsCell biologyMicro and Nano RoboticsLattice Boltzmann Simulation StudiesCharacterization and Applications of Magnetic Nanoparticles