JNTUK B.Tech Process Dynamics & Control gives you detail information of Process Dynamics & Control R13 syllabus It will be help full to understand you complete curriculum of the year.
Learning objectives
- To understand and be able to describe quantitatively the dynamic behavior of process systems.
- To learn the fundamental principles of control theory including different types of controllers and control strategies.
- To learn how to estimate the stability limits for a system, with or without control.
- To calculate and use the frequency response of a system.
- To describe quantitatively the behavior of simple control systems and to design control systems.
- To gain a brief exposure to advanced control strategies.
- To learn how to tune a control loop and to apply this knowledge in the industry/laboratory.
- To learn the different types of control valves and design of the control valve.
UNIT-I: Introduction to process dynamics and control, Response of First Order Systems – Physical examples of first order systems Response of first order systems in series, higher order systems: Second order and transportation lag.
UNIT-II: Control systems Controllers and final control elements, Block diagram of a Petrochemical rector control system.
UNIT-III: Closed loop transfer functions, Transient response of simple control systems.
UNIT-IV: Stability Criterion, Routh Test, Root locus, Transient response from root locus, Application of root locus to control systems Introduction to frequency response, Control systems design by frequency response.
UNIT-V: Advanced control strategies, Cascade control, Feed forward control, ratio control, Smith predictor, dead time compensation, internal model control.
UNIT -VI: Controller tuning and process identification. Control valves.
Outcomes:
At the completion of the course a student should be able to:
- Describe a process, how it works and what the control objectives are.
- Describe processes with appropriate block diagrams.
- Numerically model a process.
- Identify the stability limits of a system.
- Apply the advance control strategies.
- Tune process controllers.
- Experimentally determine the dynamic behavior of a process.
- Design and operate control valves.
Text Book
- Process Systems Analysis and Control by D.R. Coughanowr, 2nd ed. McGraw Hill, 1991
Reference Books
- Chemical Process Control, G. Stephanopolous, Prentice Hall, 1984
- Coulson and Richardson’s Chemical Engineering, Volume 3, 3rd Edition: Chemical and Biochemical Reactors and Process Control, Richardson J. F. et.al, Elsevier India, 2006.
- Automatic Process Control, Donald P. Eckman, John wiley, Reprint 2011.
- Process Dynamics and Control, Dale Seaborg, Thomas F. Edgar, Duncan Mellichamp, 2nd edition, Wiley India Pvt. Ltd., 2006.
- Principles of Process Control. Patranabis, 3rd Edition McGraw-Hill Education Pvt. Ltd., 2012.
- Industrial Process Control Systems, 2nd Edition, Dale R. Patrick, Stephon, W. Fardo, CRC Press, 2009.
- Modern Control Systems, 11th Edition Dorf, Pearson, 2008.
- Modern Control Engineering, Katsuhiko Ogata, 5th Edition, Prentice Hall, 2010.
- Principles and Practices of Automatic Process Control, Carlos A. Smith, Armando B. Corripio, 3rd International Edition, John Wiley and Sons, 2005.
- Process control: Concepts, Dynamics & Control, S. K. Single, PHI Learning, 2009.
- Process control, Peter Harriott, Tata McGraw-Hill 1964. (10th reprint 2008).
- Computer-Aided Process Control, S. K. Singh, PHE Learning, 2004.
- Essentials of process control, William L. Luyben, Michacl L. Luyben, McGraw-Hill, 1997.
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