Advanced Heat and Mass Transfer

Serial Number
23626
Course Number
ChemE7006
Course Identifier
524 M1200
Class 01
3 Credits
Compulsory
GRADUATE INSTITUTE OF CHEMICAL ENGINEERING
- GRADUATE INSTITUTE OF CHEMICAL ENGINEERING
CHEN, HSIEN-YEH
- View Courses Offered by Instructor
- COLLEGE OF ENGINEERING DEPARTMENT OF CHEMICAL ENGINEERING
- hsychen@ntu.edu.tw
- 化工館 131
- 02-33669476
Mon 2 / Wed 3, 4
Tseng Jiang Hall, N201 (楊斌彥廳)
Type 2
Add course with authorization code from the instructor
70 Student Quota
NTU 64 + non-NTU 6
No Specialization Program
Chinese
NTU COOL
Core Capabilities and Curriculum Planning

Notes
The course is conducted in Chinese but uses English textbook。
Limits on Course Adding / Dropping
Restriction: MA students and beyond
NTU Enrollment StatusNTU students only. Updated every five minutes during the course selection period.
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Course Description
Course Outlines: 1. Fundamentals of Heat Transfer 2. Heat Conduction 3. Steady-State Heat Conduction 4. Steady-State Heat Conduction (Two-Dimensional) 5. Time-Dependent Heat Conduction 6. Convective Heat Transfer, Convective Mass Transfer (Boundary Layers) 7. Convective Heat Transfer (Dimensional Analysis and Analogies) 8. External Forced Convection, and Internal Forced Convection 9. Internal Forced Convection, and Natural/Free Convection 10. Boiling and Condensation Heat Transfer 11. Evaporation and Drying 12. Heat Exchange Devices 13. Radiant Heat Transfer 14. Diffusive Mass Transfer
Course Objective
Build strong foundation of knowledge in transport phenomena, especially in heat and mas transfer. Fundamental knowledge will be taught in the class. Students need to take exams and pass certain standard in order to ensure the quality of knowledge transfer.
Course Requirement
Finish assignments Pass exams
Expected weekly study hours after class

Office Hour

Instructor: Hsien-Yeh Chen (陳賢燁) Office: Chem.Eng. Bldg.-II N410 E-mail: hsychen@ntu.edu.tw Office Hours: by email to schedule TA: Theresia Cecylia (李俐慧) Office: Chem.Eng. Bldg.-II N407 E-mail: d10524013@ntu.edu.tw
*This office hour requires an appointment

Designated Reading
References
Textbook: 1.Transport Phenomena 2nd Revised Ed., Bird, Stewart, Lightfoot. (2007) 2.Principles of Heat and Mass Transfer 7th Ed., Frank P. Incropera, David P. DeWitt, Theodore L. Bergman, Adrienne S. Lavine, John Wiley & Sons, Inc. (2013) Reference book: Fundamentals of Momentum, Heat, and Mass Transfer, James Welty; Gregory L. Rorrer; David G. Foster, John Wiley & Sons Inc (2014)
Grading
25%
Midterm Exam (1)
25%
Midterm Exam (2)
25%
Final Exam
25%
Homework
Adjustment methods for students

Course Schedule

02/19,02/21Week 1	02/19,02/21	Fundamentals of Heat Transfer
02/26,02/28Week 2	02/26,02/28	Heat Conduction
03/04,03/06Week 3	03/04,03/06	Heat Conduction
03/11,03/13Week 4	03/11,03/13	Steady-State Heat Conduction
03/18,03/20Week 5	03/18,03/20	Time-Dependent Heat Conduction
03/25,03/27Week 6	03/25,03/27	Time-Dependent Heat Conduction; Convective Heat Transfer Midterm Exam-1 (3/27)
04/01,04/03Week 7	04/01,04/03	Convective Heat Transfer (Dimensional Analysis and Analogies)
04/08,04/10Week 8	04/08,04/10	External Forced Convection and Internal Forced Convection
04/15,04/17Week 9	04/15,04/17	External Forced Convection and Internal Forced Convection Internal Forced Convection, and Natural/Free Convection
04/22,04/24Week 10	04/22,04/24	Internal Forced Convection, and Natural/Free Convection
04/29,05/01Week 11	04/29,05/01	Boiling and Condensation Heat Transfer Midterm Exam-2 (05/01)
05/06,05/08Week 12	05/06,05/08	Evaporation and Drying
05/13,05/15Week 13	05/13,05/15	Heat Exchange Devices
05/20,05/22Week 14	05/20,05/22	Radiant Heat Transfer
05/27,05/29Week 15	05/27,05/29	Radiant Heat Transfer Diffusive Mass Transfer
06/02,06/05Week 16	06/02,06/05	Diffusive Mass Transfer Final Exam (6/5)