UID:
almahu_9948026132602882
Format:
1 online resource (561 p.)
ISBN:
1-281-05413-5
,
9786611054137
,
0-08-051492-8
Series Statement:
Process systems engineering ; v. 4
Content:
This book describes the use of models in process engineering. Process engineering is all about manufacturing--of just about anything! To manage processing and manufacturing systematically, the engineer has to bring together many different techniques and analyses of the interaction between various aspects of the process. For example, process engineers would apply models to perform feasibility analyses of novel process designs, assess environmental impact, and detect potential hazards or accidents.To manage complex systems and enable process design, the behavior of systems is reduced to
Note:
Description based upon print version of record.
,
Cover; Process Modelling and Model Analysis; Copyright Page; Contents; INTRODUCTION; PART I: FUNDAMENTAL PRINCIPLES AND PROCESS MODEL DEVELOPMENT; Chapter 1. The Role of Models in Process Systems Engineering; 1.1. The Idea of a Model; 1.2. Model Application Areas in PSE; 1.3. Model Classification; 1.4. Model Characteristics; 1.5. A Brief Historical Review of Modelling in PSE; 1.6. Summary; 1.7. Review Questions; 1.8. Application Exercises; Chapter 2. A Systematic Approach to Model Building; 2.1. The Process System and the Modelling Goal; 2.2. Mathematical Models
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2.3. A Systematic Modelling Procedure2.4. Ingredients of Process Models; 2.5. Summary; 2.6. Review Questions; 2.7. Application Exercises; Chapter 3. Conservation Principles; 3.1. Thermodynamic Principles of Process Systems; 3.2. Principle of Conservation; 3.3. Balance Volumes in Process System Applications; 3.4. Summary; 3.5. Review Questions; 3.6. Application Exercises; Chapter 4. Constitutive Relations; 4.1. Transfer Rate Equations; 4.2. Reaction Kinetics; 4.3. Thermodynamical Relations; 4.4. Balance Volume Relations; 4.5. Equipment and Control Relations; 4.6. Summary; 4.7. Review Questions
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7.1. Development of DPS Models7.2. Examples of Distributed Parameter Modelling; 7.3. Classification of DPS Models; 7.4. Lumped Parameter Models for Representing DPSs; 7.5. Summary; 7.6. Review Questions; 7.7. Application Exercises; Chapter 8. Solution Strategies for Distributed Parameter Models; 8.1. Areas of Interest; 8.2. Finite Difference Methods; 8.3. Method of Lines; 8.4. Method of Weighted Residuals; 8.5. Orthogonal Collocation; 8.6. Orthogonal Collocation for Partial Differential Equations; 8.7. Summary; 8.8. Review Questions; 8.9. Application Exercises
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Chapter 9. Process Model Hierarchies
,
English
Additional Edition:
ISBN 0-12-156931-4
Language:
English
