Bioreaction Engineering Principles


Book Description

This is the second edition of the text "Bioreaction Engineering Principles" by Jens Nielsen and John Villadsen, originally published in 1994 by Plenum Press (now part of Kluwer). Time runs fast in Biotechnology, and when Kluwer Plenum stopped reprinting the first edition and asked us to make a second, revised edition we happily accepted. A text on bioreactions written in the early 1990's will not reflect the enormous development of experimental as well as theoretical aspects of cellular reactions during the past decade. In the preface to the first edition we admitted to be newcomers in the field. One of us (JV) has had 10 more years of job training in biotechnology, and the younger author (IN) has now received international recognition for his work with the hottest topics of "modem" biotechnology. Furthermore we are happy to have induced Gunnar Liden, professor of chemical reaction engineering at our sister university in Lund, Sweden to join us as co-author of the second edition. His contribution, especially on the chemical engineering aspects of "real" bioreactors has been of the greatest value. Chapter 8 of the present edition is largely unchanged from the first edition. We wish to thank professor Martin Hjortso from LSU for his substantial help with this chapter.




Bioreaction Engineering


Book Description

Alongside presenting the fundamentals, this book reviews the state of the art of mathematical modeling and control of bioprocesses, while demonstrating the application in various biological systems important to industry. At the same time, the application of different types of models and control strategies are illustrated, taking into account the recent developments in reactor modeling. In addition to modeling and control, the metabolic flux analysis and the metabolic design and their application to bioprocesses are considered.




Bioreaction Engineering Principles


Book Description

The present text is a complete revision of the 2nd edition from 2003 of the book with the same title. In recognition of the fast pace at which biotechnology is moving we have rewritten several chapters to include new scientific progress in the field from 2000 to 2010. More important we have changed the focus of the book to support its use, not only in universities, but also as a guide to design new processes and equipment in the bio-industry. A new chapter has been included on the prospects of the bio-refinery to replace many of the oil- and gas based processes for production of especially bulk chemicals. This chapter also serves to make students in Chemical Engineering and in the Bio-Sciences enthusiastic about the whole research field. As in previous editions we hope that the book can be used as textbook for classes, even at the undergraduate level, where chemical engineering students come to work side by side with students from biochemistry and microbiology. To help the chemical engineering students Chapter 1 includes a brief review of the most important parts of microbial metabolism. In our opinion this review is sufficient to understand microbial physiology at a sufficiently high level to profit from the rest of the book. Likewise the bio-students will not be overwhelmed by mathematics, but since the objective of the book is to teach quantitative process analysis and process design at a hands-on level some mathematics and model analysis is needed. We hope that the about 100 detailed examples and text notes, together with many instructive problems will be sufficient to illustrate how model analysis is used, also in Bio-reaction Engineering.




Cybernetic Modeling for Bioreaction Engineering


Book Description

Describes dynamic state of metabolic systems, while paving the way for fully predictive modeling frameworks.




Bioreaction Engineering, Bioprocess Monitoring


Book Description

Volume 3 of Bioreaction Engineering covers the general principles and techniques of bioprocess monitoring and their application for various bioprocesses. Methods based on the author's long standing experience working with various bioprocesses are applied within the book. In particular, the cultivation of Baker's yeast; production of fusion protein with recombinant E. Coli, alkaline serine protease production with Bacillus licheniformis; production of penicillin V with Penicillin chrysogenum; Cephalosporin C with Acremonium chrysogenum and tetracycline with Streptomyces aureofaciens are considered. This book deals with the monitoring of batch and perfusion cultivations of animal cells and production of monoclonal antibodies with hybridoma cells, Antithrombin III with BHK and CHO cells and ß -galactosidase with insect cells. The topics covered include: Bioprocess monitoring techniques Cultivation of Saccharomyces cerevisiae Production of Fusion Protein with Recombinanat E. coli Alkaline Protease Production with Bacillus licheniformis Antibiotica Production by Fungi and Streptomycetes Continuous Production of Primary Metabolites with Suspended and Immobilized Microorganisms Cultivation of Animal Cells and Production of Proteins Anaerobic Waste Water Treatment Fast Process Monitoring Techniques Image Analysis of Cells and Cell Aggregates Evaluation of Experimental Data to the Calculation of Metabolite Flux in Microorganisms and Animal Cells Signal Evaluation, Automation and Expert Systems for Process Monitoring Bioprocess Monitoring is invaluable for process engineers, analytical chemists and researchers in biotechnological, pharmaceutical, environmnental and chemical industries.




Biological Reaction Engineering


Book Description

This book is the admirable result of ten years' experience in organizing and teaching courses in biological reaction engineering. It gives engineers and scientists the information they need to analyze the behavior of complex biological reactors using mathematical equations and a dynamic simulation computer language. Part I treats the fundamentals of modelling (mass balance equations, involving reaction kinetics and mass-transfer rates), making them readily understandable to those new in the field. Part II gives 45 example problems, complete with models and programs. This book is the first of its kind to include a diskette with a commercial simulation language. The diskette can be run on any DOS personal computer. Users will appreciate how the simulation runs can be interrupted for interactive parameter changes and instructive plotting.




Bioreaction Engineering, Fundamentals, Thermodynamics, Formal Kinetics, Idealized Reactor Types and Operation Modes


Book Description

Covers not only the basic theories and principles behind reaction engineering of cells and microorganisms but also the types of reactor which can be built from such principles. The different parameters which control each type of reactor are described.




Bioreactor System Design


Book Description

Describes the state-of-the-art techniques and methods involved in the design, operation, preparation and containment of bioreactor systems, taking into account the interrelated effects of variables associated with both upstream and downstream stages of the design process. The importance of the initial steps in the development of a bioprocess, such as strain and media selection, that have an overwhelming influence on all further operations, is emphasized.;This work is intended for biochemical, chemical and bioprocess engineers; biotechnologists; industrial biochemists; micro- and molecular biologists; food scientists; and upper-level undergraduate and graduate students in these disciplines.







An Introduction to Bioreactor Hydrodynamics and Gas-Liquid Mass Transfer


Book Description

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