Conservation Equations And Modeling Of Chemical And Biochemical Processes
Series: Chemical Industries; 92;
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Product details:
- Edition number 1
- Publisher CRC Press
- Date of Publication 26 March 2003
- ISBN 9780824709570
- Binding Hardback
- No. of pages668 pages
- Size 234x156 mm
- Weight 997 g
- Language English 0
Categories
Short description:
Presenting strategies in control policies, this text uses a systems theory approach to predict, simulate and streamline plant operation, conserve fuel and resources, and increase workplace safety in the manufacturing, chemical, petrochemical, petroleum, biochemical and energy industries
MoreLong description:
Presenting strategies in control policies, this text uses a systems theory approach to predict, simulate and streamline plant operation, conserve fuel and resources, and increase workplace safety in the manufacturing, chemical, petrochemical, petroleum, biochemical and energy industries. Topics of discussion include system theory and chemical/biochemical engineering systems, steady state, unsteady state, and thermodynamic equilibrium, modeling of systems, fundamental laws governing the processes in terms of the state variables, different classifications of physical models, the story of chemical engineering in relation to system theory and mathematical modeling, overall heat balance with single and multiple chemical reactions and single and multiple reactions.
MoreTable of Contents:
Preface 1 System Theory and Chemical/Biochemical Engineering Systems 1. 1 System Theory 1.2 Steady State, Unsteady State, and Thermodynamic Equilibrium 1.3 Modeling of Systems 1.4 Fundamental Laws Governing the Processes in Terms of the State Variables 1.5 Different Classifications of Physical Models 1.6 The Story of Chemical Engineering in Relation to System Theory and Mathematical Modeling 1.7 The Present Status of Chemical Industry and Undergraduate Chemical Engineering Education 1.8 System Theory and the Mathematical Modeling Approach Used in This Book 1.9 Modeling and Simulation in Chemical Engineering 1.10 Amundson Report and the Need for Modem Chemical Engineering Education 1.11 System Theory and Mathematical Modeling as Tools for More Efficient Undergraduate Chemical Engineering Education 1.12 Summary of the Main Topics in this Chapter 2 Material and Energy Balances 2.1 Material and Energy Balances 2.2 Single and Multiple Reactions: Conversion, Yield, and Selectivity 2.3 Generalized Material Balance 2.4 Solved Problems for Mass Balance 2.5 Heat Effects 2.6 Overall Heat Balance with Single and Multiple Chemical Reactions 2.7 Solved Problems for Energy Balance 3 Mathematical Modeling (l): Homogeneous Lumped Systems 3. 1 Mathematical Modeling of Homogenea us Lumped Processes 3.2 Mathematical Model Building: General Concepts 3.3 Generic and Customized Models 3.4 Economic Benefits of Using High-Fidelity Customized Models 3.5 Jncorporation of Rigorous Models into Flowsheet Simulators and Putting Mathematical Models into User-Friendly Software Packages 3.6 From Material and Energy Balances to Steady-State Design Equations (Steady-State Mathematica1 Models) 3.7 Simple Examples for the General Equations 3.8 Modeling of Biochemical Systems 4 Mathematical Modeljng (ll): Homogeneous Distributed Systems and Upsteady-State Behavior 4.1 Modeling of Distributed Systems 4.2 The Unsteady-State Terms in Homogeneaus and Heterogeneaus Systems 4.3 The Axial Dispersion Model 5 Process Dynamics and Control 5.1 Various Forms of Process Dynamic Models 5.2 Formulation of Process Dynamic Models 5.3 State-Space and Transfer Domain Models 5.4 Introductory Process Control Concepts 5.5 Process Dynamics and Mathematical Tools 5.6 The Laplace Transformation 5.7 Characteristics of Idea l Forcing Functions 5.8 Basic Principles of Bloc k Diagrams, Control Loops, and Types of Classica l Control 5.9 Linearization 5.10 Second-Order Systems 5. 12 Block Diagram Algebra 5. 13 Some Techniques for Choosing the Controller Settings 6 Heterogeneous SyStems 6. 1 Material Balance for Heterogeneaus Systems 6.2 Design Equations (Steady-State Models) for lsothermal, Heterogeneaus Lumped Systems 6.3 Design Equations (Steady-State Models) for Isothermal Distributed Heterogeneaus Systems 6.4 Nonisothermal Heterogeneaus Systems 6.5 Examples of Heterogeneaus Systems 7 Practical Relevance of Bifurcation, Instability, and Chaos in Chemical and Biochemical Systems 8 Novel Designs for Iudustrial Chemicai/Biocbemical Systems
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Conservation Equations And Modeling Of Chemical And Biochemical Processes
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