EP 314: Process Dynamics and Controls
(May Aug, 2015)
Mohd Fauzi bin Zanil
Enrolment
IIS = 77 students
Group 1 = 32/40
Group 2 = 14/40
LMS = 17 students
Process Dynamics and Controls
Course name Process Dynamics and Controls
Course code EP 314
Status Major
Credit hour 4
Semester/Year 2/3
Pre-requisite Heat Transfer, Mass transfer, Thermodynamic
Teaching method Lecture, Laboratory & Assignment
Course expectation
The subject is to enable the student to understand the process system dynamic for the solution of control engineering problems.
The student will be able
1. to model a chemical process.
2. to design a conventional controller.
3. to analyse a control system performance.
Synopsys
Student will be introduced to the process dynamic and control system in chemical engineering industries.
Student will be introduced to the process dynamic and
control system in chemical engineering industries.
Student will be introduced to the process
dynamic and control system in chemical
engineering industries.
Student will be introduced to the process dynamic and
control system in chemical engineering industries.
Synopsys Chemical process modelling
Laplace transformation Controller
design
Control system
analysis
TOPICs
Synopsys
Laboratory session is COMPULSORY as a practical exercise to solve control engineering case study via MATLAB/Simulink tool.
Course Learning Outcome (CLO)
Upon the completion of this course, students will be able to:
CLO1: Formulate the transfer function of a chemical engineering process by using Laplace transformation tools. (C5, PLO2)
CLO2: Evaluate the closed loop block diagram in Laplace domain. (C4, PLO2)
CLO3: Analyze the stability of system by using Rouths test and Bode criterion.
(C4, PLO2)
CLO4: Design a conventional controller for process control using Classical methods (C5, PLO3, PLO5)
CLO5: Justify and present the best control performance for a control system using MATLAB/ Simulink. (C6, A2, PLO 4, PLO5, PLO6)
Course Learning Outcome (CLO)
Upon the completion of this course, students will be able to:
CLO1: Formulate the transfer function of a chemical engineering process by using Laplace transformation tools. (C5, PLO2)
Course Learning Outcome (CLO)
Upon the completion of this course, students will be able to:
CLO2: Evaluate the closed loop block diagram in Laplace domain. (C4, PLO2)
Course Learning Outcome (CLO)
Upon the completion of this course, students will be able to:
CLO3: Analyze the stability of system by using Rouths test and Bode criterion.
Course Learning Outcome (CLO)
Upon the completion of this course, students will be able to:
CLO4: Design a conventional controller for process control using Classical methods (C5, PLO3, PLO5)
Course Learning Outcome (CLO)
Upon the completion of this course, students will be able to:
CLO5: Justify and present the best control performance for a control system using MATLAB/ Simulink. (C6, A2, PLO 4, PLO5, PLO6)
Teaching PlanNo Topic Week Date
1 Introduction to EP314 05/05/2015
2 Introduction to Process Modelling and Control 07/05/2015
3 1a. Process Dynamics: ODEs 12/05/2015
4 1b. Process Dynamics: ODEs & Linearization 14/05/2015
51c. Process Dynamics: Forcing Input & Transfer Function
Tutorial 119/05/1900
6ShortQuiz1
2a. First Order System: Level & Temperature System21/05/1900
7 2b. First & Second Order Systems: Mixing & Reaction System 26/05/2015
82c. Second Order Systems: Interacting & NonInteracting System
Tutorial 228/05/2015
9ShortQuiz2
3a. Closed Loop System: Block diagram02/06/2015
10 3b. Closed Loop System: Closed loop transfer function 04/06/2015
11 3c. Closed Loop System: Basic Component of Control System 09/06/2015
12 3d. Closed Loop System: Z-N controller design method 11/06/2015
13 Midterm (20%) 16/06/2015
14 3e. Closed Loop System: C-C controller design method 18/06/2015
153f. Closed Loop System: Closed loop System Analysis
Tutorial 323/06/2015
16ShortQuiz3
4a. Frequency Response: Modelling in Frequency Domain25/06/2015
17 4b. Frequency Response: Bode diagram 30/06/2015
184c. Frequency Response: PID controller design
Tutorial 402/07/2015
19ShortQuiz4
5a. Stability & System Analysis: Introduction07/07/2015
20 5b. Stability & System Analysis: Routh's test 09/07/2015
21 5b. Stability & System Analysis: Controller Design 14/07/2015
22 Test (10%) 16/07/2015
235c. Stability & System Analysis: Criteria of Good Control
Tutorial 521/07/2015
24ShortQuiz5
6a. Introduction to Advanced Control System23/07/2015
25 6b. Introduction to Advanced Control System 28/07/2015
26 Revission 30/07/2015
27 Final Assignment Submission (10% from Laboratory ) 04/08/2015
28 No class 06/08/2015
11
12
13
14
5
6
7
8
9
10
4
1
2
3
Course Syllabus Flow diagram
Process Dynamics
Closed Loop System
Frequency Response
Stability Analysis
Advanced Control system
Quiz #1 Quiz #3 Quiz #5
Quiz #2
Quiz #4
Teaching Plan
No Topic Week Date
1 Introduction to EP314 05/05/2015
2 Introduction to Process Modelling and Control 07/05/2015
3 1a. Process Dynamics: ODEs 12/05/2015
4 1b. Process Dynamics: ODEs & Linearization 14/05/2015
51c. Process Dynamics: Forcing Input & Transfer Function
Tutorial 119/05/1900
6ShortQuiz1
2a. First Order System: Level & Temperature System21/05/1900
7 2b. First & Second Order Systems: Mixing & Reaction System 26/05/2015
82c. Second Order Systems: Interacting & NonInteracting System
Tutorial 228/05/2015
4
1
2
3
Teaching Plan
No Topic Week Date
9ShortQuiz2
3a. Closed Loop System: Block diagram02/06/2015
10 3b. Closed Loop System: Closed loop transfer function 04/06/2015
11 3c. Closed Loop System: Basic Component of Control System 09/06/2015
12 3d. Closed Loop System: Z-N controller design method 11/06/2015
13 Midterm (20%) 16/06/2015
14 3e. Closed Loop System: C-C controller design method 18/06/2015
153f. Closed Loop System: Closed loop System Analysis
Tutorial 323/06/2015
16ShortQuiz3
4a. Frequency Response: Modelling in Frequency Domain25/06/2015
17 4b. Frequency Response: Bode diagram 30/06/2015
184c. Frequency Response: PID controller design
Tutorial 402/07/2015
5
6
7
8
9
Teaching Plan
No Topic Week Date
19ShortQuiz4
5a. Stability & System Analysis: Introduction07/07/2015
20 5b. Stability & System Analysis: Routh's test 09/07/2015
21 5b. Stability & System Analysis: Controller Design 14/07/2015
22 Test (10%) 16/07/2015
235c. Stability & System Analysis: Criteria of Good Control
Tutorial 521/07/2015
24ShortQuiz5
6a. Introduction to Advanced Control System23/07/2015
25 6b. Introduction to Advanced Control System 28/07/2015
26 Revission 30/07/2015
27 Final Assignment Submission (10% from Laboratory ) 04/08/2015
28 No class 06/08/2015
11
12
13
14
10
Assessments
10
20 20
50
0
10
20
30
40
50
60
Written Written Report Written
Test Mid-Term Laboratory Final
Pe
rce
nta
ge (
%)
The course has four assessment components as
described above.
Test: It consists of 3 questions with an approximately 20 minutes each.
The duration of the test will be 1 hour.
Mid-term: It will be conducted on week 7 of the semester. The midterm
exam will have 4 questions of approximately 30 minutes each. The
duration of the mid-term exam will be 2 hours.
Laboratory: The student will attend introductory classes on Simulink,
carry out assignments on simulation and submit project report based on
simulation works.
Final Exam: It will consist of 6 questions. Answer 5 out of the 6
questions. The exam is of 3 hours duration.
50% ruling: Applicable
Textbook
Steven E. LeBlanc, Donald R.
Coughanowr,
Process Systems
Analysis and Control
3rd Edn,
McGraw-Hill Higher Education.
Reference Book
Dale E. Seborg, Thosmas F.
Edgar,
Process Dynamics and
Control
2nd Edition
Wiley.
Class policies
NO re-examination for Midterm and Test.
Later than 20 minutes - students are not allowed to attend the class.
No attendance if you leave the class for more than 20 minutes.
Class attendance < 80% automatically bar from final exam.
Refer to LMS (learning management system) and school engineering board for any announcement regarding this course.
Phone - Silent mode
Social-networking & internet browsing is ALLOWED.
Contact
Mohd Fauzi Bin Zanil, AMIChemE
M.Eng.Sc. (Process System Engineering & Control)B.Eng (Hons.) (Chemical)
Chemical and Petroleum Engineering Department , Faculty of Engineering, Technology and Built Environment (FETBE), UCSI University.
+60196951431
Consultation Hours: Tuesday & Thursday (2:00pm 3:00pm)
/pub/mohd-fauzi-zanil/65/52a/295/m0fauzi