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Principles of Fermentation Technology
Principles of Fermentation Technology has been expanded and revised in this third edition in order to provide up to date and comprehensive coverage of this subject.
Peter F Stanbury (Author), Allan Whitaker (Author), Stephen J Hall (Author)
9780080999531, Elsevier Science
Paperback / softback, published 14 September 2016
824 pages, 150 illustrations
23.4 x 19 x 5 cm, 1.72 kg
The successful structure of the previous edition of Principles of Fermentation Technology has been retained in this third edition, which covers the key component parts of a fermentation process including growth kinetics, strain isolation and improvement, inocula development, fermentation media, fermenter design and operation, product recovery, and the environmental impact of processes. This accurate and accessible third edition recognizes the increased importance of animal cell culture, the impact of the post-genomics era on applied science and the huge contribution that heterologous protein production now makes to the success of the pharmaceutical industry. This title is ideally suited for both newcomers to the industry and established workers as it provides essential and fundamental information on fermentation in a methodical, logical fashion. Stanbury, Whitaker and Hall have integrated the biological and engineering aspects of fermentation to make the content accessible to members of both disciplines with a focus on the practical application of theory. This text collates all the fermentation fundamentals into one concise reference, making it a valuable resource for fermentation scientists, as well as those studying in the field.
1. An introduction to fermentation processes 2. Microbial growth kinetics 3. The isolation and improvement of industrially important microorganisms 4. Media for industrial fermentations 5. Sterilization 6. Culture preservation and inoculum development 7. Design of a fermenter 8. Instrumentation and control 9. Aeration and agitation 10. The recovery and purification of fermentation products 11. Effluent treatment 12. The production of heterologous proteins
Subject Areas: Food & beverage technology [TDCT]
