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Chemical Engineering Communications Volume 210, 2023 - Issue 8
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Articles

Modeling free surface gas transfer in agitated lab-scale bioreactors

John A. Thomasa M-Star Simulations, LLC, Maryland, West Friendship, USACorrespondence[email protected]
ORCID Iconhttps://orcid.org/0000-0003-3833-6098
ORCID Icon,
Anisur Rahmanb Operations Science and Technology - Biologics, AbbVie Bioresearch Center, AbbVie Inc, Worcester, Massachusetts, USA
,
Johannes Wutzc M-Star Center Europe, GmbH, Sargstedt, Sachsen-Anhalt, Germany
,
Ying Wangb Operations Science and Technology - Biologics, AbbVie Bioresearch Center, AbbVie Inc, Worcester, Massachusetts, USA
,
Brian DeVincentisa M-Star Simulations, LLC, Maryland, West Friendship, USA
,
Brendan McGuireb Operations Science and Technology - Biologics, AbbVie Bioresearch Center, AbbVie Inc, Worcester, Massachusetts, USA
&
Lei Caob Operations Science and Technology - Biologics, AbbVie Bioresearch Center, AbbVie Inc, Worcester, Massachusetts, USA
 show all
Pages 1328-1339 | Published online: 08 Jun 2022
 
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Abstract

A physics-based approach for modeling convective gas-liquid mass transfer across free surfaces in lab-scale agitated vessels is presented. This approach, which combines numerical modeling with semi-empirical turbulence theory, is validated across multiple operating scales and conditions. The findings show that, regardless of the mechanical action driving motion, free surface mass transfer rate in lab-scale systems is consistent with empirical relationships. The role and importance of free surface convective mass transfer in lab scale devices is also discussed. The computational approach is shown to be practical within the context of industrial analysis and design timescales.

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