Briefing
description
Transcript of Briefing
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EP 314: Process Dynamics and Controls
(May Aug, 2015)
Mohd Fauzi bin Zanil
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Enrolment
IIS = 77 students
Group 1 = 32/40
Group 2 = 14/40
LMS = 17 students
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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
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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.
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Synopsys
Student will be introduced to the process dynamic and control system in chemical engineering industries.
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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.
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Student will be introduced to the process dynamic and
control system in chemical engineering industries.
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Synopsys Chemical process modelling
Laplace transformation Controller
design
Control system
analysis
TOPICs
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Synopsys
Laboratory session is COMPULSORY as a practical exercise to solve control engineering case study via MATLAB/Simulink tool.
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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)
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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)
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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)
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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.
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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)
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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)
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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
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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
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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
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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
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6
7
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9
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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
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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 (
%)
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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
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Textbook
Steven E. LeBlanc, Donald R.
Coughanowr,
Process Systems
Analysis and Control
3rd Edn,
McGraw-Hill Higher Education.
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Reference Book
Dale E. Seborg, Thosmas F.
Edgar,
Process Dynamics and
Control
2nd Edition
Wiley.
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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.
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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