Options
Novel sparging strategies to enhance dissolved carbon dioxide stripping in industrial scale stirred tank reactors
Citation Link: https://doi.org/10.15480/882.13705
Publikationstyp
Journal Article
Date Issued
2024-11-15
Sprache
English
Author(s)
TORE-DOI
Volume
6
Citation
Frontiers in Chemical Engineering 6: 1470991 (2024)
Publisher DOI
Scopus ID
Publisher
Frontiers Media SA
Peer Reviewed
true
Aerated stirred tank reactors are widely used in bio-process engineering and pharmaceutical industries. To supply the organisms with oxygen and control the pH value, oxygen is transferred from air bubbles into the liquid phase, and, at the same time, carbon dioxide is stripped from the liquid phase with the same gas bubbles. The volumetric mass transfer coefficients for oxygen and carbon dioxide are, therefore, of crucial importance for the design and scale-up of aerated stirred tank reactors. In this experimental work, the volumetric mass transfer coefficients for oxygen and carbon dioxide are investigated simultaneously to study their mutual influence. The mass transfer performance for oxygen and carbon dioxide is conducted in stirred tank reactors on the 3 L laboratory scale, 30 L pilot scale, and 15,000 L production scale. First, the influence of dissolved carbon dioxide on the oxygen mass transfer performance is investigated in a 30 L pilot scale stirred tank reactor. The results show that the volumetric mass transfer coefficient of oxygen is not affected by the concentration of dissolved carbon dioxide, but the total mass flux of oxygen decreases with increasing carbon dioxide concentration due to the decreasing partial pressure difference. With rising gassing rate and volumetric power input, both mass transfer coefficients for oxygen and carbon dioxide show the same increasing trend. Although this trend can also be observed when scaling down to the 3 L laboratory scale reactor, a significantly different effect must be considered for the scale-up to the 15,000 L industrial scale reactor. The limited absorption capacity for carbon dioxide of the gas bubbles during the long residence time in the industrial scale reactor is noticeable here, which is why the specific interfacial area is of negligible importance. This effect is used to develop a method for independent control of oxygen and carbon dioxide mass transfer performance on an industrial scale and to increase the mass transfer performance for carbon dioxide by up to 25%.
Subjects
mass transfer performance
volumetric mass transfer coefficient of oxygen and carbon dioxide
carbon dioxide stripping
stirred tank reactor
experimental results
DDC Class
660.2: Chemical Engineering
More Funding Information
Publishing fees were supported by the Funding Programme Open Access Publishing of Hamburg University of Technology (TUHH).
Publication version
publishedVersion
Loading...
Name
Novel Sparging Strategies.pdf
Type
Main Article
Size
2.33 MB
Format
Adobe PDF