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Scale-up of stirring as foam disruption (SAFD) to industrial scale.

Authors :
Hoeks FW
Boon LA
Studer F
Wolff MO
van der Schot F
Vrabél P
van der Lans RG
Bujalski W
Manelius A
Blomsten G
Hjorth S
Prada G
Luyben KCh
Nienow AW
Source :
Journal of industrial microbiology & biotechnology [J Ind Microbiol Biotechnol] 2003 Feb; Vol. 30 (2), pp. 118-28. Date of Electronic Publication: 2003 Feb 08.
Publication Year :
2003

Abstract

Foam disruption by agitation-the stirring as foam disruption (SAFD) technique-was scaled up to pilot and production scale using Rushton turbines and an up-pumping hydrofoil impeller, the Scaba 3SHP1. The dominating mechanism behind SAFD-foam entrainment-was also demonstrated at production scale. The mechanistic model for SAFD defines a fictitious liquid velocity generated by the (upper) impeller near the dispersion surface, which is correlated with complete foam disruption. This model proved to be scalable, thus enabling the model to be used for the design of SAFD applications. Axial upward pumping impellers appeared to be more effective with respect to SAFD than Rushton turbines, as demonstrated by retrofitting a 12,000 l bioreactor, i.e. the triple Rushton configuration was compared with a mixed impeller configuration from Scaba with a 20% lower ungassed power draw. The retrofitted impeller configuration allowed 10% more broth without risking excessive foaming. In this way a substantial increase in the volumetric productivity of the bioreactor was achieved. Design recommendations for the application of SAFD are given in this paper. Using these recommendations for the design of a 30,000 l scale bioreactor, almost foamless Escherichia coli fermentations were realised.

Details

Language :
English
ISSN :
1367-5435
Volume :
30
Issue :
2
Database :
MEDLINE
Journal :
Journal of industrial microbiology & biotechnology
Publication Type :
Academic Journal
Accession number :
12612787
Full Text :
https://doi.org/10.1007/s10295-003-0023-7