KAIST Academic System

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Program	Master/Doctorate [석/박사과정]	Course Type	Elective(Graduate) [ 선택(석/박사) ]
Course Code	39.811	Course No	CBE811
Section		English	English
L:L:C(AU)	3:0:3.0(0)	Exam time (classroom)	- Wed: 09:00~11:00 ()
Course Title	Special Topics in Chemical Reaction Engineering [ 화학반응공학특강<광촉매반응공학> ]
Class time (classroom)	Mon: 09:00~10:00 / (W1)Applied Engineering Bldg. [ (W1)응용공학동 ] (1119) Wed: 09:00~10:00 / (W1)Applied Engineering Bldg. [ (W1)응용공학동 ] (1119) Fri: 09:00~10:00 / (E2)Industrial Engineering & Management Bldg. [ (E2)산업경영학동 ] (1119)
Notice	영어강의

Program

Master/Doctorate [석/박사과정]

Course Type

Elective(Graduate) [ 선택(석/박사) ]

Course Code

39.811

Course No

CBE811

Section

English

L:L:C(AU)

3:0:3.0(0)

Exam time
(classroom)

- Wed: 09:00~11:00
()

Course Title

Special Topics in Chemical Reaction Engineering [ 화학반응공학특강<광촉매반응공학> ]

Class time
(classroom)

Mon: 09:00~10:00 / (W1)Applied Engineering Bldg. [ (W1)응용공학동 ] (1119)
Wed: 09:00~10:00 / (W1)Applied Engineering Bldg. [ (W1)응용공학동 ] (1119)
Fri: 09:00~10:00 / (E2)Industrial Engineering & Management Bldg. [ (E2)산업경영학동 ] (1119)

Notice

영어강의


Name	박승빈(Park, SeungBin)
Department	생명화학공학과(Department of Chemical and Biomolecular Engineering)
Phone	042-350-3928
E-Mail	sbpark7@kaist.ac.kr

Name

박승빈(Park, SeungBin)

Department

생명화학공학과(Department of Chemical and Biomolecular Engineering)

Phone

042-350-3928

E-Mail

sbpark7@kaist.ac.kr

Syllabus File	CBE811(08)_PSB.hwp
Syllabus URL	http://
Summary of Lecture	Heterogeneous photocatalysis is a reaction which is accelerated by light while a heterogeneous reaction consists of two phases ( a solid and a liquid for example). Heterogeneous photocatalysis is a fast developing science which to date has not been fully integrated as a lecture. This lecture discusses the basic principles of heterogeneous photocatalysis and describes the basic principles of heterogeneous photocatalysis. Applications of various types of photo-reactions are described and the problems related to the modeling and design of photocatalytic reactors are covered. In this semester, special focus will be made on the application of photocatalytic reaction by titania and production of hydrogen by reduction of water.
Material for Teaching	1.TiO2 Photocatalysis - Fundamentals and Applications (Fujishima, Hashmoto, and Watanabe, 1999, Bkc Inc. Tokyo,Japan)
Evaluation Criteria	1. Homework 20 % 2. Mid-term examination 30 % 3. Final examination 30 % 4. Presentation and uploading ppt files to website 20 %
Lecture Schedule	Week 1 Introduction Week 2 Chap 1. Cleaning Week 3 Chap 2, Antibacterial Effect Week 4 Chap 3. Self-Cleaning Week 5 Chap 4. Superhydrophilicity HW#1 Week 6 Chap 5. Air Purification (I) HW#2 Week 7 Air Purification (II) Week 8 Mid-Term Examination Week 9 Chap6. Water Purification (I) Week 10 Water Purification (II) Week 11 Chap 7. Medical Application - Cancer Therapy HW#3 Week 12 Chap 8. New Photocatalyst HW#4 Week 13 Chap 9. Photosynthesis Week 14 Hydrogen Production Week 15 Oral Presentation Week 16 Final Examination
Memo	Assistant Name:

Syllabus File

CBE811(08)_PSB.hwp

Syllabus URL

http://

Summary of Lecture

Heterogeneous photocatalysis is a reaction which is accelerated by light while a heterogeneous reaction consists of two phases ( a solid and a liquid for example). Heterogeneous photocatalysis is a fast developing science which to date has not been fully integrated as a lecture. This lecture discusses the basic principles of heterogeneous photocatalysis and describes the basic principles of heterogeneous photocatalysis. Applications of various types of photo-reactions are described and the problems related to the modeling and design of photocatalytic reactors are covered. In this semester, special focus will be made on the application of photocatalytic reaction by titania and production of hydrogen by reduction of water.

Material for Teaching

1.TiO2 Photocatalysis - Fundamentals and Applications (Fujishima, Hashmoto, and Watanabe, 1999, Bkc Inc. Tokyo,Japan)

Evaluation Criteria

1. Homework 20 %
2. Mid-term examination 30 %
3. Final examination 30 %
4. Presentation and uploading ppt files to website 20 %

Lecture Schedule

Week 1 Introduction
Week 2 Chap 1. Cleaning
Week 3 Chap 2, Antibacterial Effect
Week 4 Chap 3. Self-Cleaning
Week 5 Chap 4. Superhydrophilicity HW#1
Week 6 Chap 5. Air Purification (I) HW#2
Week 7 Air Purification (II)
Week 8 Mid-Term Examination
Week 9 Chap6. Water Purification (I)
Week 10 Water Purification (II)
Week 11 Chap 7. Medical Application - Cancer Therapy HW#3
Week 12 Chap 8. New Photocatalyst HW#4
Week 13 Chap 9. Photosynthesis
Week 14 Hydrogen Production
Week 15 Oral Presentation
Week 16 Final Examination

Memo

Assistant Name:

Infomation of Course

Information of Professor

Plan of Lecture