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Integration Approaches to Model Bioreactor Hydrodynamics and Cellular Kinetics for Advancing Bioprocess Optimisation

V. Singh, Ioscani Jiménez del Val, Jarka Glassey, Fatemeh Kavousi

2024Bioengineering26 citationsDOIOpen Access PDF

Abstract

Large-scale bioprocesses are increasing globally to cater to the larger market demands for biological products. As fermenter volumes increase, the efficiency of mixing decreases, and environmental gradients become more pronounced compared to smaller scales. Consequently, the cells experience gradients in process parameters, which in turn affects the efficiency and profitability of the process. Computational fluid dynamics (CFD) simulations are being widely embraced for their ability to simulate bioprocess performance, facilitate bioprocess upscaling, downsizing, and process optimisation. Recently, CFD approaches have been integrated with dynamic Cell reaction kinetic (CRK) modelling to generate valuable information about the cellular response to fluctuating hydrodynamic parameters inside large production processes. Such coupled approaches have the potential to facilitate informed decision-making in intelligent biomanufacturing, aligning with the principles of "Industry 4.0" concerning digitalisation and automation. In this review, we discuss the benefits of utilising integrated CFD-CRK models and the different approaches to integrating CFD-based bioreactor hydrodynamic models with cellular kinetic models. We also highlight the suitability of different coupling approaches for bioprocess modelling in the purview of associated computational loads.

Topics & Concepts

BioprocessBiomanufacturingBiochemical engineeringComputational fluid dynamicsProcess (computing)BioreactorProcess engineeringAutomationComputer scienceSystems engineeringEngineeringMechanical engineeringBiotechnologyChemistryBiologyAerospace engineeringChemical engineeringOperating systemOrganic chemistryViral Infectious Diseases and Gene Expression in InsectsInnovative Microfluidic and Catalytic Techniques InnovationFluid Dynamics and Mixing
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