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Modeling multiphase fluid flow, mass transfer, and chemical reactions in bioreactors using large‐eddy simulation

Navraj Hanspal, Brian DeVincentis, John A. Thomas

2022Engineering in Life Sciences18 citationsDOIOpen Access PDF

Abstract

We present a transient large eddy simulation (LES) modeling approach for simulating the interlinked physics describing free surface hydrodynamics, multiphase mixing, reaction kinetics, and mass transport in bioreactor systems. Presented case-studies include non-reacting and reacting bioreactor systems, modeled through the inclusion of uniform reaction rates and more complex biochemical reactions described using Contois type kinetics. It is shown that the presence of reactions can result in a non-uniform spatially varying species concentration field, the magnitude and extent of which is directly related to the reaction rates and the underlying variations in the local volumetric mass transfer coefficient.

Topics & Concepts

Mass transferBioreactorMixing (physics)MechanicsLarge eddy simulationMass transfer coefficientReaction rateKineticsMultiphase flowFlow (mathematics)Chemical kineticsTransient (computer programming)ThermodynamicsFluid dynamicsMaterials scienceChemistryPhysicsTurbulenceComputer scienceClassical mechanicsCatalysisOperating systemQuantum mechanicsBiochemistryOrganic chemistryFluid Dynamics and MixingParticle Dynamics in Fluid FlowsFluid Dynamics and Heat Transfer