11420 程序控制

# Required Courses # Undergraduate Program
11 Lectures / 26 Sections / 18h 38m 36s
Lecture 1:Week 1
Section 1
36:12
Section 2
38:46
Lecture 2:Week 3
Section 1
46:47
Section 2
48:46
Section 3
46:55
Lecture 3:Week 4
Section 1
53:18
Section 2
39:14
Section 3
57:16
Lecture 4:Week 5
Section 1
33:35
Quiz 1
Section 2
50:01
Lecture 5:Week 6
Section 1
50:14
Section 2
28:59
Lecture 6:Week 7
Section 1
45:41
Section 2
38:32
Section 3
53:25
Lecture 7:Week 8
Section 1
54:29
Section 2
32:45
Section 3
01:00:01
Lecture 8:Week 9
Section 1
58:15
Lecture 9:Week 10
Section 1
46:42
Section 2
21:04
Lecture 10:Week 11
Section 1
43:20
Section 2
35:30
Section 3
49:00
Lecture 11:Week 12
Section 1
49:49
Introduction
Duration| 18h 38m 36s
Total Lectures| 11 Lectures 26 Sections

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
Lectures
Lecture 1:Week 1
Section 1 - Lecture 1
36:12
Section 2 - Lecture 2
38:46
Lecture 2:Week 3
Section 1 - Lecture 3
46:47
Section 2 - Lecture 4
48:46
Section 3 - Lecture 5
46:55
Lecture 3:Week 4
Section 1 - Lecture 6
53:18
Section 2 - Lecture 7
39:14
Section 3 - Lecture 8
57:16
Lecture 4:Week 5
Section 1 - Lecture 9
33:35
Quiz 2 - Notice for Lecture 10
Section 3 - Lecture 11
50:01
Lecture 5:Week 6
Section 1 - Lecture 12
50:14
Section 2 - Lecture 13
28:59
Lecture 6:Week 7
Section 1 - Lecture 14
45:41
Section 2 - Lecture 15
38:32
Section 3 - Lecture 16
53:25
Lecture 7:Week 8
Section 1 - Lecture 17
54:29
Section 2 - Lecture 18
32:45
Section 3 - Lecture 19
01:00:01
Lecture 8:Week 9
Section 1 - Lecture 20
58:15
Lecture 9:Week 10
Section 1 - Lecture 21
46:42
Section 2 - Lecture 22
21:04
Lecture 10:Week 11
Section 1 - Lecture 23
43:20
Section 2 - Lecture 24
35:30
Section 3 - Lecture 25
49:00
Lecture 11:Week 12
Section 1 - Lecture 26
49:49
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Prof. Ching-Tien Chen
Prof. Ching-Tien Chen

Dept.  Chemical Engineering

Research Field

Porous Materials Design and Engineering, Thermal Catalysis, Continuous-Flow Chemistry, Sustainable Chemistry, Waste Valorization

️ E-mail

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