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Chemical process control : an introduction to theory and practice / George Stephanopoulos.

By: Stephanopoulos, George.
Series: Prentice-Hall international series in the physical and chemical engineering sciences. Publisher: Upper Saddle River, N.J. : Prentice-Hall, c1984Description: xxi, 696 p. : ill. ; 24 cm.ISBN: 0131286293 (pbk.); 9780131286290 (pbk.).Subject(s): Chemical process controlDDC classification: 660.281
Contents:
Preface. - Pt. 1. The control of a chemical process: its characteristics and associated problems. 1. Incentives for chemical process control. 2. Design aspects of a process control system. 3. Hardware for a process control system. - Pt. II. Modeling the dynamic and static behavior of chemical processes. 4. Development of mathematical model. 5. Modeling considerations for control purposes. - Pt. III. Analysis of the dynamic behavior of chemical processes. 6. Computer simulation and the linearization of nonlinear systems. 7. Laplace transforms. 8. Solution of linear differential equations using laplace transforms. 9. Transfer functions and the input-output models. 10. Dynamic behavior of first-order systems. 11. Dynamic behavior of second-order systems. 12. Dynamic behavior of higher-order systems. - Pt. IV Analysis and design of feedback control systems. 13. Introduction to feedback control. 14. Dynamic behavior of feedback-controlled processes. 15. Stability analysis of feedback systems. 16. Design of feedback controllers. 17. Frequency response analysis of linear processes. 18. Design of feedback control systems using frequency response techniques. - Pt. V. Analysis and design of advanced control systems. 19. Feedback control of systems with large dead time or inverse response. 20. Control systems with multiple loops. 21. Feedforward and ratio control. 22. Adaptive and inferential control systems. - Pt. VI. Design of control systems for multivariable processes: introduction to plant control. 23. Synthesis of alternative control configurations for multiple-input, multiple-output processes. 24. Interaction and decoupling of control loops. 25. Design of control systems for complete plants. - Pt. VII. Process control using digital computers. 26. Digital computer control loops. 27. From continuous to discrete-time systems. 28.z-Transforms. 29. Discrete-time response of dynamic systems. 30. Design of digital feedback controllers. 31. Process identification and adaptive control. - Index.
Item type Current location Shelf location Call number Copy number Status Notes Date due Barcode
Main Collection Taylor's Library-TU

Floor 4, Shelf 28 , Side 1, TierNo 2, BayNo 5

660.281 STE (Browse shelf) 1 Available SOExx,07015,03,RM 5000069696
Main Collection Taylor's Library-TU

Floor 4, Shelf 28 , Side 1, TierNo 2, BayNo 5

660.281 STE (Browse shelf) 1 Available SOExx,07015,03,RM 5000053824
Main Collection Taylor's Library-TU

Floor 4, Shelf 28 , Side 1, TierNo 2, BayNo 5

660.281 STE (Browse shelf) 1 Available SOExx,07015,03,RM 5000053827

Includes bibliographical references and index.

Preface. - Pt. 1. The control of a chemical process: its characteristics and associated problems. 1. Incentives for chemical process control. 2. Design aspects of a process control system. 3. Hardware for a process control system. - Pt. II. Modeling the dynamic and static behavior of chemical processes. 4. Development of mathematical model. 5. Modeling considerations for control purposes. - Pt. III. Analysis of the dynamic behavior of chemical processes. 6. Computer simulation and the linearization of nonlinear systems. 7. Laplace transforms. 8. Solution of linear differential equations using laplace transforms. 9. Transfer functions and the input-output models. 10. Dynamic behavior of first-order systems. 11. Dynamic behavior of second-order systems. 12. Dynamic behavior of higher-order systems. - Pt. IV Analysis and design of feedback control systems. 13. Introduction to feedback control. 14. Dynamic behavior of feedback-controlled processes. 15. Stability analysis of feedback systems. 16. Design of feedback controllers. 17. Frequency response analysis of linear processes. 18. Design of feedback control systems using frequency response techniques. - Pt. V. Analysis and design of advanced control systems. 19. Feedback control of systems with large dead time or inverse response. 20. Control systems with multiple loops. 21. Feedforward and ratio control. 22. Adaptive and inferential control systems. - Pt. VI. Design of control systems for multivariable processes: introduction to plant control. 23. Synthesis of alternative control configurations for multiple-input, multiple-output processes. 24. Interaction and decoupling of control loops. 25. Design of control systems for complete plants. - Pt. VII. Process control using digital computers. 26. Digital computer control loops. 27. From continuous to discrete-time systems. 28.z-Transforms. 29. Discrete-time response of dynamic systems. 30. Design of digital feedback controllers. 31. Process identification and adaptive control. - Index.