Litcius/Paper detail

Numerical inspection of two-dimensional MHD mixed bioconvective flows of radiating Maxwell nanofluids nearby a convectively heated vertical surface

Abderrahim Wakif

2023Waves in Random and Complex Media41 citationsDOI

Abstract

The non-homogeneous aspect and dynamical feature of a radiating mixture of an upper-convected Maxwell nanofluid and gyrotactic motile microorganisms are revealed numerically in this investigation during its two-dimensional mixed convective motion nearby a convectively heated vertical surface and a uniform magnetic field source. Based on relevant physical and mathematical backgrounds, the conservation laws (i.e. equations of continuity, momentum, heat balance, solid nanoparticles’ concentration, and gyrotactic motile microorganisms’ concentration) monitoring the present flow problem are derived appropriately in the form of partial differential equations. By making use of specific transformations and rearrangements, these differential equations are converted thereafter into a gigantic structure of first-order ordinary differential equations. By executing computationally an appropriate bvp4c subroutine, the resulting boundary layer equations are handled accordingly for well-defined physical constraints. Afterward, the computing unitless characteristics (i.e. velocity, temperature, solid nanoparticles’ concentration, gyrotactic motile microorganisms’ concentration, skin friction coefficient, Nusselt's number, Sherwood's number, and motile microorganisms’ transfer rate) are discussed exhaustively via graphical and tabular illustrations. As prominent outcomes, it is demonstrated that Joule's heating effect and Lorentz's forces exhibit an enhancing influence on the heat and mass transport phenomena within the nanofluidic medium with a dissimilar dynamical impact.

Topics & Concepts

NanofluidNusselt numberMechanicsSherwood numberMagnetohydrodynamicsPhysicsClassical mechanicsLorentz forceBoundary layerPartial differential equationConvectionFlow (mathematics)Heat transferMagnetic fieldTurbulenceReynolds numberQuantum mechanicsNanofluid Flow and Heat TransferHeat Transfer MechanismsFluid Dynamics and Turbulent Flows