Introduction
Process systems analysis and control is a crucial discipline in the field of chemical engineering, which deals with designing and managing systems and processes involved in the production of various products. In this blog post, we will be discussing the book Process Systems Analysis and Control written by Donald R. Coughanowr and Steven E. LeBlanc, which has been widely used as a textbook for students and a reference for professionals in the field.
About the Authors
Donald R. Coughanowr was a professor of chemical engineering at the University of Colorado. He had over 50 years of experience in teaching and research in the fields of chemical process control, process systems engineering, and energy systems analysis. He also served as a consultant to several companies and government agencies.
Steven E. LeBlanc is a professor of chemical engineering at Brigham Young University. He has over 25 years of experience in teaching and research in the areas of process control, process design, and optimization. He is also a consultant to various industries, including aerospace, defense, and energy.
Overview of the Book
The book Process Systems Analysis and Control provides a comprehensive understanding of the fundamental principles and techniques used in process control and systems analysis. It covers topics such as process modeling, feedback control, dynamics and stability, design and simulation of control systems, and digital control.
The book is divided into five parts, with each part focusing on specific aspects of process systems analysis and control. Part 1 introduces the basic concepts of process control, including control systems and process dynamics. It also discusses different types of control systems and their applications.
Part 2 deals with advanced control techniques, such as feedforward control, cascade control, and ratio control. It also covers the design and implementation of these control strategies in different processes.
Part 3 discusses the modeling of process dynamics and the analysis of closed-loop systems. It explains the use of transfer functions and state-space models for process modeling and control system design.
Part 4 focuses on digital control, which has become increasingly important in recent years due to the widespread use of computers in industrial processes. It covers topics such as digital control algorithms, discrete-time analysis, and implementation of digital controllers.
Part 5 concludes the book with a chapter on process optimization, which discusses the use of optimization techniques in the design and operation of chemical processes.
Key Features of the Book
One of the key features of the book is its practical approach to process systems analysis and control. The authors use real-world examples and case studies to explain the concepts and techniques, making it easier for readers to understand and apply them.
The book also provides a good balance between theory and practice. It covers the theoretical concepts in detail, but also includes practical applications and examples to demonstrate the relevance of these concepts in industrial settings.
Another notable feature of the book is its inclusion of modern topics and techniques such as digital control and process optimization. This makes it a relevant and up-to-date resource for students and professionals alike.
Conclusion
Process Systems Analysis and Control is a comprehensive and practical guide to the principles and techniques of process control and systems analysis. With its clear and concise explanations, relevant case studies, and modern topics, it serves as an excellent textbook for students and a valuable reference for professionals in the field of chemical engineering.
