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Infomation of Course

Program Bachelor [학사과정] Course Type Major Elective [ 전공선택 ]
Course Code 39.332 Course No CBE332
Section English English
L:L:C(AU) 3:0:3.0(0) Exam time
- Tue: 09:00~11:45
Course Title Heat and Molecular Transfer [ 열과 분자의 이동 ]
Class time
Tue: 09:00~10:30 / (W1)Applied Engineering Bldg. [ (W1)응용공학동 ] (2122)
Thu: 09:00~10:30 / (W1)Applied Engineering Bldg. [ (W1)응용공학동 ] (2122)

Information of Professor

Name 임성갑(Im, Sung Gap)
Department 생명화학공학과(Department of Chemical and Biomolecular Engineering)
Phone 042-350-3936

Education4.0 Q

Teaching Style Lecture 100%
Education4.0 Q N

Plan of Lecture

Syllabus File
Syllabus URL
Summary of Lecture The objective of 'Heat and Molecular Transfer' course can be summarized as;
First, students are guided to understand the physical phenomena in heat and molecular (mass) transfer observed in chemical and biological engineering processes.
Second, the ability to apply these basic principles to the analysis, design and optimization of the real processes is practiced.

In this course, basic principles of molecular (mass) transfer will be studied first. Then, following these principles, steady and unsteady molecular diffusion will be studied. Convective transport of molecules will be studied for laminar flow if fluid flow is involved.
For heat transfer, basic principles of heat transfer will be studied and then steady and unsteady heat conduction will be studied based on basic principles. Convective transport of heat will be studied for laminar flow if fluid flow is involved. If time is permitted, natural convection, condensation, radiative heat transport will be covered.
Material for Teaching - Main textbook: S. Middleman, An Introduction to Mass and Heat Transfer - Principles of Analysis and Design, John Wiley & Sons, 1998. Introduce new problems.
- Auxiliary textbook:
1. R. B. Bird, W. E. Stewart and E. N. Lightfoot, Transport Phenomena, Wiley, 1960. Classic text for transport phenomena. Not easy to read. Almost everything is covered.
2. W. M. Deen, Analysis of Transport Phenomena, Oxford University Press, 1998.
Evaluation Criteria Mid-term (30%), Final term (40%), Homework (20%), attendance (10%)
Lecture Schedule 1. Introduction-Molecular transfer
2. Diffusive mass transfer
3. Steady and quasi-steady mass transfer
4. Unsteady state (transient) mass transfer
5. Diffusion with laminar convection
6. Convective mass transfer coefficients
7. Continuous gas/liquid contactors (optional)
8. Membrane transfer and membrane separation systems (optional)
9. Introduction-Heat transfer
10. Heat transfer by conduction
11. Transient heat transfer by conduction
12. Convective heat transfer
13. Simple heat exchangers
14. Natural convection heat transfer
15. Heat transfer by radiation
16. Simultaneous heat and mass transfer