課程資訊
課程名稱
電腦輔助程序設計
COMPUTER AIDED PROCESS DESIGN 
開課學期
95-2 
授課對象
工學院  化學工程學研究所  
授課教師
余政靖 
課號
ChemE7012 
課程識別碼
524EM1350 
班次
 
學分
全/半年
半年 
必/選修
選修 
上課時間
星期一7,8(14:20~16:20)星期五5(12:20~13:10) 
上課地點
綜405 
備註
化工選修課程。本課程以英語授課。
限學士班四年級以上
總人數上限:50人 
 
課程簡介影片
 
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課程概述

Instructor: 余政靖 (化工 211A; ccyu@ntu.edu.tw ; 3365-1759)

TA: 蘇安治 (綜合教室 402; 2362-6970, x-14)

Lecture Time: Monday 3:30-5:20; Friday 2:20-3:10 (綜合403)

Objective: To study simulation and design of chemical processes using computer with emphasis on interaction between design and control

Course Outline:
I. Basics (2wks)
A. Matrix (Module 2)
B. MATLAB (Module 1)
II. Numerical Techniques (2 wks)
A. Algebraic & Nonlinear Equations
B. Numerical Integration
III. Modeling Using Computer (3 wks)
A. Basics
B. Steady-state simulation
C. Dynamics
IV. Steady-state design (including modeling) (4wks)
A. Reactors- CSTR, PFR
B. Separation Processes- binary, multi-component, azeotropic and reactive distillation
C. Heat Management
V. Interaction between design and control (4 wks)
A. Reactors
B. Separators
C. Heat Management
D. Entire plant

Homework and Project:
Homework (mostly computer related) problems will be assigned every other week. You have to work on at least one process in every aspects, steady-state design and dynamic control.

Examination and Presentation:
One mid-term examination will be given plus making a presentation of your project.

Textbook and Course Materials ( http://pse.che.ntu.edu.tw/ccyu/CAD/ )
Bequette, B. W. Process Dynamics: Modeling, Analysis and Simulation, Prentice-Hall: Upper Saddle River, 1998. (開發)
An easy to read book on modeling, analysis and simulation of chemical processes (MATLAB based). : http://www.rpi.edu/chem-eng/WWW/bequette/edu.html
Luyben, W. L., Tyreus, B. D.; Luyben, M. L. Plantwide Process Control, McGraw-Hill: 1999.
This is a comprehensive book on plantwide process control in which principles were given and many case studies were included. A well balanced book for plantwide control.
Constantinides, A.; Mostoufi, N. Numerical methods for Chemical Engineers with MATLAB Applications, Prentice-Hall: Upper Saddle River, 1999. (高立)
A typical book on numerical methods with many chemical engineering problems using MATLAB.
Luyben, W. L. Plantwide Dynamic Simulators in Chemical and Processing and Control, Marcel Dekker: New York, 2002.
Collect a lot of ASPEN/HYSYS examples which is a good source for choosing examples.

Course schedule

lecture 1 2/21(一) Introduction
lecture 2 2/25(五) MATLAB-1 (Su)
lecture 3 3/4 (五) Matrix
lecture 4 3/7 (一) MATLAB-2 (Su)
lecture 5 3/11 (五) Algebraic Eqns
lecture 6 3/18 (五) Algebraic Eqns/ODE
lecture 7 3/25 (五) ODE
lecture 8 3/28 (一) Simulink (Su)
lecture 9 4/1 (五) Ch1 (Bequette)
lecture 10 4/8 (五) Ch2 (Bequette)
lecture 11 4/15 (五) Ch2 (Bequette)
Exam 4/18 (一) (open & closed book)
lecture 12 4/22 (五) Simulator-Introduction
lecture 13 4/25 (一) Aspen Plus (Hung)
lecture 14 4/29 (五) Aspen Dynamics (Hung)
lecture 15 5/6 (五) Reactor-modeling
lecture 16 5/9 (一) Reactor-dynamics
lecture 17 5/13 (五) Distillation-modeling
lecture 18 5/20 (五) Distillation-dynamics
lecture 19 5/23 (一) Heat-management-modeling
lecture 20 6/3 (五) Heat-management-dynamics
lecture 21 6/6 (一) Recycle plant-material recycle
lecture 22 6/10 (五) Recycle plant-material & energy recycle
Presentation 6/20 (一) (10 minutes/speaker)

 

課程目標
Instructor: 余政靖 (化工 211A; ccyu@ntu.edu.tw ; 3365-1759)

TA: 蘇安治 (綜合教室 402; 2362-6970, x-14)

Lecture Time: Monday 3:30-5:20; Friday 2:20-3:10 (綜合403)

Objective: To study simulation and design of chemical processes using computer with emphasis on interaction between design and control

Course Outline:
I. Basics (2wks)
A. Matrix (Module 2)
B. MATLAB (Module 1)
II. Numerical Techniques (2 wks)
A. Algebraic & Nonlinear Equations
B. Numerical Integration
III. Modeling Using Computer (3 wks)
A. Basics
B. Steady-state simulation
C. Dynamics
IV. Steady-state design (including modeling) (4wks)
A. Reactors- CSTR, PFR
B. Separation Processes- binary, multi-component, azeotropic and reactive distillation
C. Heat Management
V. Interaction between design and control (4 wks)
A. Reactors
B. Separators
C. Heat Management
D. Entire plant

Homework and Project:
Homework (mostly computer related) problems will be assigned every other week. You have to work on at least one process in every aspects, steady-state design and dynamic control.

Examination and Presentation:
One mid-term examination will be given plus making a presentation of your project.

Textbook and Course Materials ( http://pse.che.ntu.edu.tw/ccyu/CAD/ )
Bequette, B. W. Process Dynamics: Modeling, Analysis and Simulation, Prentice-Hall: Upper Saddle River, 1998. (開發)
An easy to read book on modeling, analysis and simulation of chemical processes (MATLAB based). : http://www.rpi.edu/chem-eng/WWW/bequette/edu.html
Luyben, W. L., Tyreus, B. D.; Luyben, M. L. Plantwide Process Control, McGraw-Hill: 1999.
This is a comprehensive book on plantwide process control in which principles were given and many case studies were included. A well balanced book for plantwide control.
Constantinides, A.; Mostoufi, N. Numerical methods for Chemical Engineers with MATLAB Applications, Prentice-Hall: Upper Saddle River, 1999. (高立)
A typical book on numerical methods with many chemical engineering problems using MATLAB.
Luyben, W. L. Plantwide Dynamic Simulators in Chemical and Processing and Control, Marcel Dekker: New York, 2002.
Collect a lot of ASPEN/HYSYS examples which is a good source for choosing examples.

Course schedule

lecture 1 2/21(一) Introduction
lecture 2 2/25(五) MATLAB-1 (Su)
lecture 3 3/4 (五) Matrix
lecture 4 3/7 (一) MATLAB-2 (Su)
lecture 5 3/11 (五) Algebraic Eqns
lecture 6 3/18 (五) Algebraic Eqns/ODE
lecture 7 3/25 (五) ODE
lecture 8 3/28 (一) Simulink (Su)
lecture 9 4/1 (五) Ch1 (Bequette)
lecture 10 4/8 (五) Ch2 (Bequette)
lecture 11 4/15 (五) Ch2 (Bequette)
Exam 4/18 (一) (open & closed book)
lecture 12 4/22 (五) Simulator-Introduction
lecture 13 4/25 (一) Aspen Plus (Hung)
lecture 14 4/29 (五) Aspen Dynamics (Hung)
lecture 15 5/6 (五) Reactor-modeling
lecture 16 5/9 (一) Reactor-dynamics
lecture 17 5/13 (五) Distillation-modeling
lecture 18 5/20 (五) Distillation-dynamics
lecture 19 5/23 (一) Heat-management-modeling
lecture 20 6/3 (五) Heat-management-dynamics
lecture 21 6/6 (一) Recycle plant-material recycle
lecture 22 6/10 (五) Recycle plant-material & energy recycle
Presentation 6/20 (一) (10 minutes/speaker)

 
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