Bioprocess Technology [electronic resource] : Kinetics and Reactors / by Anton Moser
- Author:
- Moser, Anton
- Published:
- New York, NY : Springer New York, 1988.
- Physical Description:
- XXX, 451 pages 279 illustrations : online resource
- Additional Creators:
- SpringerLink (Online service)
- Access Online:
- ezaccess.libraries.psu.edu
- Contents:
- 1 Introduction -- 1.1 Biotechnology: A Definition and Overview -- 1.2 Bioprocess Technology -- 2 The Principles of Bioprocess Technology -- 2.1 Empirical Pragmatic Process Development -- 2.2 Basics of Quantification Methods for Bioprocesses -- 2.3 Systematic, Empirical Process Development with Mathematical Models -- 2.4 Mathematical Modeling in Bioprocessing -- 3 Bioreactors -- 3.1 Overview: Industrial Reactors -- 3.2 Systematics of Bioreactors -- 3.3 Quantification Methods -- 3.4 Operational Modes and Bioreactor Concepts -- 3.5 Bioreactor Models -- 3.6 “Perfect Bioreactors” in Bench and Pilot Scale for Process Kinetic Analysis -- 4 Process Kinetic Analysis -- 4.1 Kinetic Analysis in Different Types of Reactors -- 4.2 Regime Analysis—General Concept and Guidelines -- 4.3 Test of Pseudohomogeneity -- 4.4 Parameter Estimation of Kinetic Models with Bioreactors -- 4.5 Modeling Heterogeneous Processes -- 5 Bioprocess Kinetics -- 5.1 Temperature Dependence, k(T), Water Activity, aw, and Enthalpy/Entrophy Compensation -- 5.2 Microkinetic Equations Derived from the Kinetics of Chemical and Enzymatic Reactions -- 5.3 Basic Unstructured Kinetic Models of Growth and Substrate Utilization (Homogeneous Rate Equations) -- 5.4 Kinetic Models for Microbial Product Formation -- 5.5 Multisubstrate Kinetics -- 5.6 Mixed Population Kinetics -- 5.7 Dynamic Models for Transient Operation Techniques (Nonstationary Kinetics) -- 5.8 Kinetic Models of Heterogeneous Bioprocesses -- 5.9 Pseudokinetics -- 5.10 Kinetics of Sterilization -- 6 Bioreactor Performance: Process Design Methods -- 6.1 The Ideal Single-Stage, Constant-Volume Continuous Stirred Tank Reactor, CSTR (Pseudohomogeneous L-Phase Reactor Model) -- 6.2 Variable Volume CSTR Operation (Fed-Batch and Transient Reactor Operation) -- 6.3 Multistage Single and Multistream Continuous Reactor Operation. -- 6.4 Continuous Plug Flow Reactors (CPFR) -- 6.5 Recycle Reactor Operation -- 6.6 Gas/Liquid (Two-Phase) Reactor Models in Bioprocessing -- 6.7 Biofilm Reactor Operation -- 6.8 Dialysis and Synchronous Culture Operation -- 6.9 Integrating Strategy as General Scale-Up Concept in Bioprocessing -- 6.10 Final Note -- Appendix I Fundamentals of Stoichiometry of Complex Reaction Systems -- Appendix II Computer Simulations -- Appendix III Microkinetics: Derivation of Kinetic Rate Equations from Mechanisms.
- Summary:
- This volume provides working procedures for the analysis and simulation of production-scale biological processes. It discusses: - the principles and quantitative characteristics of the various bioreactors; - the use of bioreactors for obtaining kinetic data in the analysis of specific processes; - mathematical and computer models for simulating the kinetics of biological processes; - estimation of bioreactor performance. Dr. Moser bridges the gap between basic principles and applied engineering practice in this valuable reference for students and industrial biotechnologists.
- Subject(s):
- ISBN:
- 9781461387480
- Digital File Characteristics:
- text file PDF
- Note:
- AVAILABLE ONLINE TO AUTHORIZED PSU USERS.
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