Modeling a protein foam fractionation process

A simple staged model for the protein foam fractionation process is proposed in this article. This simplified model does not detail the complex foam structure and gas-liquid hydrodynamics in the foam phase but, rather, is built on the conventional theoretical stage concept considering upward bubbles...

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Bibliographic Details
Published in:Applied biochemistry and biotechnology 2000, Vol.84 (1-9), p.1087-1099
Main Authors: Du, L, Loha, V, Tanner, R.D
Format: Article
Language:English
Subjects:
Adsorption
Animals
Biological and medical sciences
Biotechnology
bovine serum albumin
bubbles
Cattle
Chemical Fractionation - instrumentation
Chemical Fractionation - methods
drainage
egg albumen
Foam separation
foams
Fractionation
Fundamental and applied biological sciences. Psychology
Gases
Hydrodynamics
Methods. Procedures. Technologies
Models, Theoretical
Others
Ovalbumin - isolation & purification
Proteins
Proteins - isolation & purification
Serum Albumin, Bovine - isolation & purification
Solutions
sorption isotherms
Various methods and equipments
Citations: Items that cite this one
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Summary:A simple staged model for the protein foam fractionation process is proposed in this article. This simplified model does not detail the complex foam structure and gas-liquid hydrodynamics in the foam phase but, rather, is built on the conventional theoretical stage concept considering upward bubbles with entrained liquid and downward liquid (drainage) as counter-current flows. To simulate the protein concentration distribution in the liquid along the column by the model, the bubble size and liquid hold-up with respect to the position must be known, as well as the adsorption isotherm of the protein being considered. The model is evaluated for one stage by data from the semibatch foam fractionation of egg albumin and data from the continuous foam fractionation of bovine serum albumin. The effect of two significant variables (superficial gas velocity and feed protein concentration) on enrichment is well predicted by the model, especially for continuous operation and semibatch operation when initial concentration is high.
ISSN:0273-2289
1559-0291
0273-2289
DOI:10.1385/ABAB:84-86:1-9:1087