Mass transport enhancement in annular-shaped lid-driven bioreactor
Author:
Publisher
Springer Science and Business Media LLC
Subject
General Medicine,Bioengineering,Biotechnology
Link
http://link.springer.com/content/pdf/10.1007/s00449-011-0672-2.pdf
Reference20 articles.
1. Bailey JE, Ollis DE (1986) Biochemical engineering fundamentals. McGraw-Hill, New York
2. Baier G, Graham MD, Lightfoot EN (2000) Mass transport in a novel two-fluid Taylor vortex extractor. AIChE J 46:2395–2407
3. Kiesser T, Oertzen G, Bauer W (1990) Modeling of a fluidized bed bioreactor for immobilized enzymes. Chem Eng Tech 13:20–26
4. Yankov D, Sapundzhiev C, Beschkov V (1996) Modeling of enzyme hydrolysis of maltose in a single pellet of immobilized biocatalyst. Bioprocess Biosystems Eng 14:219–222
5. Al-Shannag M, Al-Qodah Z, Herrero J, Humphrey JAC, Giralt F (2008) Using a wall-driven flow to reduce the external mass transfer resistance of a bio-reaction system. Biochemical Eng J 39:554–565
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