Course title |
化學反應工程 Chemical Reaction Engineering |
Semester |
101-2 |
Designated for |
DEPARTMENT OF CHEMICAL ENGINEERING |
Instructor |
吳紀聖 |
Curriculum Number |
ChemE4005 |
Curriculum Identity Number |
504 42000 |
Class |
02 |
Credits |
3 |
Full/Half Yr. |
Half |
Required/ Elective |
Required |
Time |
Monday 2(9:10~10:00) Wednesday 3,4(10:20~12:10) |
Room |
普204普301 |
Remarks |
The upper limit of the number of students: 61. |
Ceiba Web Server |
http://ceiba.ntu.edu.tw/1012Reaction_Eng |
Course introduction video |
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Table of Core Capabilities and Curriculum Planning |
Table of Core Capabilities and Curriculum Planning |
Course Syllabus
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Please respect the intellectual property rights of others and do not copy any of the course information without permission
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Course Description |
本課程是化工系大三必修的基礎課程,學習化學工程科學中的化學反應原理,反應器設計和觸媒反應。 |
Course Objective |
本課程是化工系必修的基礎課程,目的是快樂學習反應器的基本原理與設計,包括化學反應動力、實驗設計與數據分析以及反應程序最適化。訓練學生解決問題的能力,進而培養創造力,以運用、評估或設計在化學工業的反應器。 |
Course Requirement |
質能平衡,工程數學,有機化學,物理化學,熱力學。 |
Student Workload (expected study time outside of class per week) |
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Office Hours |
Mon. 10:20~12:00 Wed. 14:00~15:00 |
Designated reading |
教科書:H. Scott Fogler, "Essentials of Chemical Reaction Engineering," International edition, Pearson Education International, 2011 |
References |
Octave Levenspiel, "Chemical Reaction Engineering," 3rd edition, John Wiley & Sons, 1999
J. M. Smith, "Chemical Engineering Kinetics," 3rd edition, McGraw-Hill, 1981
R. W. Missen, C. A. Mims and B. A. Saville, "Chemical Reaction Engineering and Kinetics" John Wiley & Sons, 1999
C. N. Satterfield, “Heterogeneous Catalysis In Industrial Practice,“ 2nd ed. McGraw-Hill, New York, 1991 |
Grading |
No. |
Item |
% |
Explanations for the conditions |
1. |
第一次期中考 |
30% |
Chapter 1-4 |
2. |
第二次期中考 |
30% |
Chapter 5-7 |
3. |
期末考 |
30% |
Chapter 8-10 |
4. |
作業 |
10% |
Bonus 10%+ |
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Week |
Date |
Topic |
第1週 |
2/18,2/20 |
Chapter 1 Introduciton and mole balance |
第2週 |
2/25,2/27 |
Chapter 1 Mole balance |
第3週 |
3/04,3/06 |
Chapter 2 Conversion and sizing |
第4週 |
3/11,3/13 |
Chapter 3 Rate laws |
第5週 |
3/18,3/20 |
Chapter 4 Stoichiometry |
第6週 |
3/25,3/27 |
Midterm 1 |
第7週 |
4/01,4/03 |
Chapter 5 Isothermal reactor design: conversion -1 |
第8週 |
4/08,4/10 |
Chapter 5 Isothermal reactor design: conversion -2 |
第9週 |
4/15,4/17 |
Chapter 6 Isothermal reactor design: molar flow rates -1 |
第10週 |
4/22,4/24 |
Chapter 6 Isothermal reactor design: molar flow rates -2 |
第11週 |
4/29,5/01 |
Chapter 7 Collection and analysis of rate data |
第12週 |
5/06,5/08 |
Midterm 2 |
第13週 |
5/13,5/15 |
Chapter 8 Multiple reactions -1 |
第14週 |
5/20,5/22 |
Chapter 8 Multiple reactions -2 |
第15週 |
5/27,5/29 |
Chapter 9 Reaction Mechanisms, pathways, bioreaction, bioreactors |
第16週 |
6/03,6/05 |
Chapter 10 Catalysis and catalytic reactors -1 |
第17週 |
6/10,6/12 |
Chapter 10 Catalysis and catalytic reactors -2 |
第18週 |
6/19 |
期末考 |
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