11420 程序控制

Brief course descriptions

In this course, students will learn the fundamentals of process dynamics and control, including the derivation of mathematical models for relevant processes, design and tuning of controllers, and some knowledge of industrial-relevant instrumentations. Students will also learn how to visualize process dynamics by solving mathematical models with Matlab.

Course keywords

Process dynamics, Process control, Process modeling, Matlab, Industrial processes

Textbook

Slides and lecture notes

Reference

-          Smith, C.A. and Corripio A.B., Principles and Practice of Automatic Process Control, John Wiley & Sons, Inc., 2006.

-          Seborg, D.E., Edgar T.F. and Mellichamp, D.A., Process Dynamics and Control,

Syllabus

1. Introduction
2. Linear and Non-Linear Systems
3. Linear Approximation and Linearization of Non-Linear Systems
4. Feedback Control of Simple Systems
5. Introduction to Second-Order Processes
6. Interactive Linear Systems
7. Empirical Models for Second-Order Processes
8. Instrumentations and Traditional Controllers
9. Dynamics and Stability of Closed-Loop Systems
10. PID Controller Design and Tuning