Process Dynamics and Control / Edition 2

Process Dynamics and Control / Edition 2

by Dale E. Seborg, Thomas F. Edgar, Duncan A. Mellichamp
     
 

ISBN-10: 0471000779

ISBN-13: 9780471000778

Pub. Date: 10/17/2003

Publisher: Wiley

Design Control Systems Using Modern Technologies and Techniques

Process control has increased in importance in the process industries, driven by global competition, rapidly changing economic conditions, more stringent environmental and safety regulations, and the need for more flexible yet more complex processes to manufacture high value-added

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Overview

Design Control Systems Using Modern Technologies and Techniques

Process control has increased in importance in the process industries, driven by global competition, rapidly changing economic conditions, more stringent environmental and safety regulations, and the need for more flexible yet more complex processes to manufacture high value-added products.

This long-awaited second edition of Dale Seborg, Thomas Edgar, and Duncan Mellichamp’s PROCESS DYNAMIC AND CONTROL reflects recent changes and advances in process control theory and technology. The authors have added new topics, and enhanced the presentation with a large number of new exercises and examples, many of which utilize MATLAB and Simulink.

New and expanded topics includes:

  • Mathematical modeling of chemical processes
  • Developing dynamic models from process data
  • Control system design
  • Process safety and process control
  • Enhanced single-loop control
  • Digital control
  • Multiloop and multivariable control
  • Real-time optimization
  • Model predictive control
  • Process monitoring
  • Batch process control
  • Plantwide control
  • Applications to semiconductor manufacturing and bioprocessing
  • Control hardware and software

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Product Details

ISBN-13:
9780471000778
Publisher:
Wiley
Publication date:
10/17/2003
Pages:
736
Product dimensions:
8.02(w) x 10.34(h) x 1.27(d)

Table of Contents

PART ONE: INTRODUCTION TO PROCESS CONTROL.

Introduction to Process Control.

Theoretical Models of Chemical Processes.

PART TWO: DYNAMIC BEHAVIOR OF PROCESSES.

Laplace Transforms.

Transfer Function and State-Space Models.

Dynamic Behavior of First-Order and Second-Order Systems.

Dynamic Response Characteristics of More Complicated Systems.

Development of Empirical Dynamic Models from Process Data.

PART THREE: FEEDBACK AND FEEDFORWARD CONTROL.

Feedback Controllers.

Control System Instrumentation.

Overview of Control System Design.

Dynamic Behavior and Stability of Closed-Loop Control Systems.

PID Controller Design, Tuning, and Troubleshooting.

Frequency Response Analysis.

Control System Design Based on Frequency Response Analysis.

Feedforward and Radio Control.

PART FOUR: ADVANCED PROCESS CONTROL.

Enhanced Single-Loop Control Strategies.

Digital Sampling, Filtering, and Control.

Multiloop and Multivariable Control.

Real-Time Optimization.

Model Predictive Control.

Process Monitoring.

Batch Process Control.

Introduction to Plantwide Control.

Plantwide Control Design Procedures.

Appendix A: Digital Process Control Systems: Hardware and Software.

Appendix B: Review of Thermodynamics Concepts for Conservation Equations.

Appendix C: Use of MATLAB in Process Control.

Appendix D: Contour Mapping and the Principle of the Argument.

Appendix E: Dynamic Models and Parameters Used for Plantwide Control.

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