KAIST Academic System

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Program	Master/Doctorate [석/박사과정]	Course Type	Elective(Graduate) [ 선택(석/박사) ]
Course Code	39.622	Course No	CBE622
Section		English
L:L:C(AU)	3:0:3.0(0)	Exam time (classroom)	- Thu: 09:00~11:45 ()
Course Title	Mixing Theory in Chemical Engineering [ 화공혼합공학 ]
Class time (classroom)	Tue: 10:30~12:00 / (W1-3)Dept. of Chemical & Biomolecular Engineering [ (W1-3)생명화학공학과 ] (1119) Thu: 10:30~12:00 / (W1-3)Dept. of Chemical & Biomolecular Engineering [ (W1-3)생명화학공학과 ] (1119)
Notice

Program

Master/Doctorate [석/박사과정]

Course Type

Elective(Graduate) [ 선택(석/박사) ]

Course Code

39.622

Course No

CBE622

Section

English

L:L:C(AU)

3:0:3.0(0)

Exam time
(classroom)

- Thu: 09:00~11:45
()

Course Title

Mixing Theory in Chemical Engineering [ 화공혼합공학 ]

Class time
(classroom)

Tue: 10:30~12:00 / (W1-3)Dept. of Chemical & Biomolecular Engineering [ (W1-3)생명화학공학과 ] (1119)
Thu: 10:30~12:00 / (W1-3)Dept. of Chemical & Biomolecular Engineering [ (W1-3)생명화학공학과 ] (1119)

Notice


Name	김상돈(Kim, Sang-Done)
Department	생명화학공학과(Department of Chemical and Biomolecular Engineering)
Phone	3913
E-Mail	kimsd45@kaist.ac.kr

Name

김상돈(Kim, Sang-Done)

Department

생명화학공학과(Department of Chemical and Biomolecular Engineering)

Phone

3913

E-Mail

kimsd45@kaist.ac.kr

Syllabus File
Syllabus URL
Summary of Lecture
Material for Teaching	Main Text Books 1. Fluid Mixing Technology by J. Y. Oldshue, McGraw Hill, New York, N.Y., 1983 Reference Books 1. Mixing : Principles and Applications by S. Nagata, A. Halsted Press Book, Kondansha Ltd., Tokyo, Japan, 1975 2. The Theory of Backmixing by J.C. Mecklenburgh and S. Hartland, John Wiley & Sons, 1975 3. Mixing for Process Industries by R. J. McDonough, Van Nostrand Reinhold, New York, 1992 4. HANDBOOK OF INDUSTRIAL MIXING : Science and Practice, Edited by Edward L. Paul, Victor A. Atiemo-Obeng and Suzanne M. Kresta, WILEY-INTERSCIENCE, 2004 John Wiley & Sons, Inc.
Evaluation Criteria	Midterm Exam: (40%); Final Exam: (40%) H.W., (20%)
Lecture Schedule	1. Introduction - General Theory (1 week) 2. Impeller Fluid Shear Rates and Pumping Capacity (2 week) 3. Power Correlations and Mixing Environment (3 week) 4. Low-Viscosity Blending (4 week) 5. Solid Suspension (5 week) 6. Liquid-Liquid Emulsion (6 week) 7. Gas-Liquid Dispersions (7 week) 8. Pumping Effects (8 week) 9. Scale-up (9 week) 10. Chemical Reactions (10 week) 11. Liquid/Solid; Liquid-Liquid Mass Transfer (11 week) 12. Gas-Liquid Mass Transfer (12 week) 13. Heat Transfer and Continuous Flow in Mixing Processes (13 week) 14. Fluid Forces (14 week) 15. Mechanical Design of Fluid Mixers (15 week) 16. Industrial Applications (16 week)
Memo

Syllabus File

Syllabus URL

Summary of Lecture

Material for Teaching

Main Text Books

1. Fluid Mixing Technology by J. Y. Oldshue, McGraw Hill, New York, N.Y., 1983

Reference Books

1. Mixing : Principles and Applications by S. Nagata, A. Halsted Press Book, Kondansha Ltd., Tokyo, Japan, 1975
2. The Theory of Backmixing by J.C. Mecklenburgh and S. Hartland, John Wiley & Sons, 1975
3. Mixing for Process Industries by R. J. McDonough, Van Nostrand Reinhold, New York, 1992
4. HANDBOOK OF INDUSTRIAL MIXING : Science and Practice, Edited by Edward L. Paul, Victor A. Atiemo-Obeng and Suzanne M. Kresta, WILEY-INTERSCIENCE, 2004 John Wiley & Sons, Inc.

Evaluation Criteria

Midterm Exam: (40%); Final Exam: (40%) H.W., (20%)

Lecture Schedule

1. Introduction - General Theory (1 week)
2. Impeller Fluid Shear Rates and Pumping Capacity (2 week)
3. Power Correlations and Mixing Environment (3 week)
4. Low-Viscosity Blending (4 week)
5. Solid Suspension (5 week)
6. Liquid-Liquid Emulsion (6 week)
7. Gas-Liquid Dispersions (7 week)
8. Pumping Effects (8 week)
9. Scale-up (9 week)
10. Chemical Reactions (10 week)
11. Liquid/Solid; Liquid-Liquid Mass Transfer (11 week)
12. Gas-Liquid Mass Transfer (12 week)
13. Heat Transfer and Continuous Flow in Mixing Processes (13 week)
14. Fluid Forces (14 week)
15. Mechanical Design of Fluid Mixers (15 week)
16. Industrial Applications (16 week)

Memo

Infomation of Course

Information of Professor

Plan of Lecture