Introduction To Process Control, Second Edition by Jose A. RomagnoliIntroduction To Process Control, Second Edition by Jose A. Romagnoli

Introduction To Process Control, Second Edition

byJose A. Romagnoli, Ahmet PalazogluEditorJose A. Romagnoli

Hardcover | February 14, 2012

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Introduction to Process Control, Second Edition provides a bridge between the traditional view of process control and the current, expanded role by blending conventional topics with a broader perspective of more integrated process operation, control, and information systems. Updating and expanding the content of its predecessor, this second edition addresses issues in today¿s teaching of process control.

Teaching & Learning Principles

  • Presents a concept first followed by an example, allowing students to grasp theoretical concepts in a practical manner
  • Uses the same problem in each chapter, culminating in a complete control design strategy
  • Includes 50 percent more exercises

Content

  • Defines the traditional and expanded roles of process control in modern manufacturing
  • Introduces the link between process optimization and process control (optimizing control), including the effect of disturbances on the optimal plant operation, the concepts of steady-state and dynamic backoff as ways to quantify the economic benefits of control, and how to determine an optimal transition policy during a planned production change
  • Incorporates an introduction to the modern architectures of industrial computer control systems with real case studies and applications to pilot-scale operations
  • Discusses the expanded role of process control in modern manufacturing, including model-centric technologies and integrated control systems
  • Integrates data processing/reconciliation and intelligent monitoring in the overall control system architecture

Web Resource
The book¿s website offers a user-friendly software environment for interactively studying the examples in the text. The site contains the MATLAB¿ toolboxes for process control education as well as the main simulation examples from the book. Access the site through the authors¿ websites at www.pseonline.net and www.chms.ucdavis.edu/research/web/pse/ahmet/

Drawing on the authors¿ combined 50 years of teaching experiences, this classroom-tested text is designed for chemical engineering students but is also suitable for industrial practitioners who need to understand key concepts of process control and how to implement them. The authors help readers see how traditional process control has evolved into an integrated operational environment used to run modern manufacturing facilities.

Jose A. Romagnoliholds the Cain Chair in Process Systems Engineering in the Department of Chemical Engineering and is the director of the Laboratory for Process Systems Engineering at Louisiana State University. He earned a PhD in chemical engineering from the University of Minnesota. Dr. Romagnoli has authored more than 300 internatio...
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Title:Introduction To Process Control, Second EditionFormat:HardcoverDimensions:643 pages, 9.3 × 6.3 × 1.4 inPublished:February 14, 2012Publisher:Taylor and FrancisLanguage:English

The following ISBNs are associated with this title:

ISBN - 10:1439854866

ISBN - 13:9781439854860

Reviews

Table of Contents

INTRODUCTION
Why Process Control?
Historical Background
Role of Control in Process Industries
Objectives of Control
Summary
Continuing Problem
References

Definitions and Terminology
Concepts and Definitions
Control Design Problem
Control System Design
Control Design Project
Summary
Continuing Problem
References

MODELING FOR CONTROL
Basic Concepts in Modeling
Why Is Process Modeling Necessary?
Classification of Models
Types of Models
Degrees of Freedom
Models and Control
Summary
References

Development of Models from Fundamental Laws
Principles of Modeling
Models Based on Fundamental Laws
Modeling of Processes Involving Chemical Reactions
Modeling of Complex Systems
Distributed Parameter Systems
Numerical Solution of Model Equations
Summary
Continuing Problem
References

Input'Output Models: The Transfer Function
Linear (Linearized) Model
Concept of Transfer Function
Transfer Functions of Single-Input Single-Output Processes
Properties of Transfer Functions
Nonrational Transfer Functions
Summary
Continuing Problem

Models from Process Data
Development of Empirical Models
Model Structures
Process Reaction Curve Method
Regression in Modeling
Summary
Continuing Problem
References

PROCESS ANALYSIS
Stability
Stability of Linear Systems
Input'Output Stability
Routh's Criterion
Root-Locus Method
Direct Substitution Method
Summary
References

Dynamic Performance
Input Types
First-Order Processes
Second-Order Processes
Multicapacity Processes
Effect of Zeros
Effect of Time Delays
Summary
Continuing Problem

Frequency Response
What Is Frequency Response?
Complex Numbers in Polar Coordinates
Construction of Frequency Response
Evaluation of Frequency Response
Frequency Response of Common Systems
Bode Diagrams
Nyquist Diagrams
Systems in Series
Summary
Continuing Problem

FEEDBACK CONTROL
Basic Elements of Feedback Control
Feedback Control Problem
Control Law
Closed-Loop Transfer Functions
Analysis of Individual Terms in PID Controllers
Practical Issues in PID Design
Summary
Continuing Problem
Reference

Stability Analysis of Closed-Loop Processes
Closed-Loop Stability
Routh's Criterion
Root-Locus Method
Modeling Errors
Frequency Response Methods
Summary
Continuing Problem

Feedback Control Design
Design Objectives
Controller Tuning Techniques
Comparing the Methods
Summary
Continuing Problem
References

MODEL-BASED CONTROL
Model-Based Control
Feedforward Control
Delay Compensation (Smith Predictor)
Internal Model Control
Summary
Continuing Problem
References

Model Uncertainty and Robustness
IMC Structure with Model Uncertainty
Description of Model Uncertainty
IMC Design under Model Uncertainty
Summary
References

Model Predictive Control
General Principles
Dynamic Matrix Control
Process Constraints
State-Space Formulation of MPC
Summary
Continuing Problem
References

MULTIVARIABLE CONTROL
Multivariable Systems: Special Cases
Cascade Control
Ratio Control
Split-Range Control
Override Control
Summary
Continuing Problem
References

Multivariable Systems
Characteristics of Multivariable Processes
Modeling of Multivariable Processes
Transfer Functions of Multivariable Processes
Multivariable Feedback Control Structure
Summary
Continuing Problem
References

Design of Multivariable Controllers
Multiple-Input'Multiple-Output Feedback Analysis
RGA Interaction Measure
Multiloop Controller Design
Design of Noninteracting Control Loops: Decouplers
Summary
Continuing Problem
References

CONTROL IN MODERN MANUFACTURING
Practical Control of Nonlinear Processes
Operating Regime Modeling Approach
Gain-Scheduling Controller
Multimodel Controller Design
Summary
References

Process Optimization and Control
Process Optimization
Optimizing Control of Disturbances
Dynamic Optimization and Transition Planning
Summary
References

Industrial Control Technology
Evolution of Industrial Control Technology
Generic Industrial Control Systems Architecture
Summary
Continuing Problem
References

Role of Process Control in Modern Manufacturing
Expanded Role of Control in Modern Manufacturing
Model-Centric Technologies
Integrated Control Systems
Summary
References

Data Processing and Reconciliation
Dealing with Missing Points
Outliers
Characterizing Process Data
Modeling Process Data
Data Reconciliation
Issues in Data Reconciliation

Process Monitoring
Process Monitoring
Statistical Process Control
Principal Component Analysis
Multivariate Performance Monitoring
Fault Diagnosis and Classification
Controller Performance Monitoring
Summary
References

Appendix A: Linearization
Appendix B: Laplace Transformation
Appendix C: Matrix Operations
Appendix D: Basic Statistics

Index

Additional Reading and Exercises appear at the end of each section.

Editorial Reviews

This book contains the essential material for a first course on process control at an elementary level and I highly recommend it to instructors who [teach this] course at this level.
¿Mehmet C. Camurdan, Bo¿azi¿University, Turkey