Course Objective: To impart ideas of distributed control and computer controlled industrial processes.
Syllabus:
Introduction to process dynamics- physical examples of first order process-first order systems in series-dynamic behavior of first and second order systems
Control valves and transmission lines, the dynamics and control of heat exchangers, level control, flow control, dynamics and control of distillation columns, Stability and control of chemical reactors, control of pH and blending process. Control modes: on-off, P, PI, PD, PID, Controller tuning
Advanced control techniques
-feed forward control, Cascade control, Ratio control, Adaptive control, Override control, Control of nonlinear process , Control of process with delay, Hierarchical control, Internal mode control, Model predictive control, Statistical process control.
Digital controllers
-effects of sampling-implementation of PID controller-stability and tuning-digital feed forward control
Computerized process control
-Programmable logic controllers, combinational and sequential logic controllers, Programmable logic devices, Logic controller design using programmable logic devices, Supervisory computer tasks and configurations, System integration with PLCs and computers
References:
- ‘Process Control’
– Peter Harriot
– Tata McGraw-Hill
- ‘Chemical process control’
– George Stephanopoulos
– Prentice-Hall of India
- ‘Process System analysis and Control’
– Donald R Coughnour
– McGraw-Hill, 1991
- ‘Process dynamics and control’
– D E Seborg , T F Edger
– John Wiley, 1989
- ‘Programmable Logic Devices and logic Controllers’
– Enrique Mandado, Jorge Marcos, Serafin A Perrez
– Prentice-Hall, 1996
- ‘Distributed Computer Control for Industrial Automation’
– Dobrivoje Popovic, Vijay P Bhatkar, Marcel Dekker
– INC, 1990
- ‘Handbook of Process Control’
– B.G.Liptak
– 1996
No comments:
Post a Comment