doi:10.1016/j.jbiosc.2009.11.014

Paper Title

Computational fluid dynamics modeling of gas dispersion in multi impeller bioreactor

Authors

Ashok Pandey

Savithri Sivaraman

Panneerselvam Ranganathan

Keywords

Computational Fluid Dynamics
Gas Dispersion
Multi-Impeller Bioreactor
Dual Rushton Turbines
Hydrodynamic Parameters
Fractional Gas Hold-Up
Power Consumption
Mixing Time
Two-Fluid Model
MUSIG Model
Polydispersed Gas Flow
Bioreactor Flow Regimes
ANSYS CFX
Numerical Simulations
Experimental Validation
Gas Flow Rate Effect
Impeller Speed Optimization
Stirred Bioreactor Modeling
Bioprocess Engineering
Flow Regime Prediction
Turbulence Modeling
Aeration Efficiency
Reactor Scale-Up
Multiphase Flow Simulation
Industrial Bioreactors
CFD Bioreactor Design

Article Type

Research Article

Journal

Journal of Bioscience and Bioengineering

Research Impact Tools

DOI

10.1016/j.jbiosc.2009.11.014

Issue

Volume : 109 | Issue : 6 | Page No : 588-597

Published On

June, 2010

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Abstract

In the present study, experiments have been carried out to identify various flow regimes in a dual Rushton turbines stirred bioreactor for different gas flow rates and impeller speeds. The hydrodynamic parameters like fractional gas hold-up, power consumption and mixing time have been measured. A two fluid model along with MUSIG model to handle polydispersed gas flow has been implemented to predict the various flow regimes and hydrodynamic parameters in the dual turbines stirred bioreactor. The computational model has been mapped on commercial solver ANSYS CFX. The flow regimes predicted by numerical simulations are validated with the experimental results. The present model has successfully captured the flow regimes as observed during experiments. The measured gross flow characteristics like fractional gas hold-up, and mixing time have been compared with numerical simulations. Also the effect of gas flow rate and impeller speed on gas hold-up and power consumption have been investigated.