This book has been written for all those who work with microbial cultures, providing a useful, quick and contemporary re-education for practitioners and students alike, breaking through interdisciplinary barriers. Biologists, engineers and biochemists will benefit from the methods of microbial process description and optimization based on mathematical equations. The basic techniques of modeling the bio-system are summarized in Part I. The useful concept of mass balancing is introduced in Part II for those who are not used to this simple and very useful engineering tool. An extensive and descriptive case study of a selected fermentation bio-process in Part III elucidates further the concepts of very pragmatic mathematical modeling of bioreactor systems.
The volume outlines how to simply develop mathematical models of microbial systems and demonstrates their power to: guide and minimize the experimental work; check the consistency of experimental results; predict the behavior of the bio-system and analyze biocatalytic processes; diagnose the anomalies in the microbial culture behavior and optimize the performance of bioreactors.
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Modeling of Fermentation Processes. 1. Introduction. 2. Systems Analysis Approach to the Mathematical Modeling of Fermentation Processes. 3. Mathematical Model Identification. 4. Application of Mathematical Models in the Simulation and Optimization of Fermentation Processes. 5. Conclusion
Part I. Part II
Fundamentals of Mass Balancing. 6 Mass Balances. Part III
Case Study. 7. Modeling of the Acetone-Butanol-Ethanol Fermentation Process Alternatives. 8. Conclusion. Appendix
Tables of Computer Program Listings.