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This book reviews and compares the major types of bioreactors used to produce renewable fuels, chemicals, medicines, and proteins, by providing an overview of the hydrodynamics and gas-liquid mass transfer operations in this equipment. These operations are important because they influence the quality and quantity of the desired material produced in the reactor. The text also discusses advantages and disadvantages of each bioreactor and provides a procedure for optimal bioreactor selection based on current process needs, giving chemical and mechanical engineers a practical, working…mehr

Produktbeschreibung
This book reviews and compares the major types of bioreactors used to produce renewable fuels, chemicals, medicines, and proteins, by providing an overview of the hydrodynamics and gas-liquid mass transfer operations in this equipment. These operations are important because they influence the quality and quantity of the desired material produced in the reactor. The text also discusses advantages and disadvantages of each bioreactor and provides a procedure for optimal bioreactor selection based on current process needs, giving chemical and mechanical engineers a practical, working reference.
Reviews and compares the major types of bioreactors, defines their pros and cons, and identifies research needs and figures of merit that have yet to be addressed

Describes common modes of operation in bioreactors
Covers the three common bioreactor types, including stirred-tank bioreactors, bubble column bioreactors, and airlift bioreactors
Details less common bioreactors types, including fixed bed bioreactors and novel bioreactor designs
Discusses advantages and disadvantages of each bioreactor and provides a procedure for optimal bioreactor selection based on current process needs
Reviews the problems of bioreactor selection globally while considering all bioreactor options rather than concentrating on one specific bioreactor type
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Autorenporträt
Enes Kadic completed his master's degree in the Department of Mechanical Engineering at Iowa State University. His work involved extensive reviews of various bioreactors, which became the framework for this book. Theodore J. Heindel is currently the Bergles Professor of Thermal Science in the Department of Mechanical Engineering at Iowa State University; he also holds a courtesy professor appointment in the Department of Chemical and Biological Engineering. He directs the Experimental Multiphase Flow Laboratory at ISU. Dr. Heindel's research program has been funded by over 40 projects supported through the NSF, USDA, DOE, and industrial partners. He has published over 70 peer-reviewed papers and over 175 conference papers, abstracts, and technical reports.