KAIST Academic System

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Program	Common [공통(상호인정)]	Course Type	Elective(Graduate) [ 선택(석/박사) ]
Course Code	39.571	Course No	CBE571
Section		English	English
L:L:C(AU)	3:0:3.0(0)	Exam time (classroom)	- Tue: 16:00~18:45 ()
Course Title	Energy Engineering [ 에너지공학 ]
Class time (classroom)	Tue: 16:00~17:30 / (W1-3)Dept. of Chemical & Biomolecular Engineering [ (W1-3)생명화학공학과 ] (2116) Thu: 16:00~17:30 / (W1-3)Dept. of Chemical & Biomolecular Engineering [ (W1-3)생명화학공학과 ] (2116)
Notice	타대학, 타학과 수강제한

Program

Common [공통(상호인정)]

Course Type

Elective(Graduate) [ 선택(석/박사) ]

Course Code

39.571

Course No

CBE571

Section

English

L:L:C(AU)

3:0:3.0(0)

Exam time
(classroom)

- Tue: 16:00~18:45
()

Course Title

Energy Engineering [ 에너지공학 ]

Class time
(classroom)

Tue: 16:00~17:30 / (W1-3)Dept. of Chemical & Biomolecular Engineering [ (W1-3)생명화학공학과 ] (2116)
Thu: 16:00~17:30 / (W1-3)Dept. of Chemical & Biomolecular Engineering [ (W1-3)생명화학공학과 ] (2116)

Notice

타대학, 타학과 수강제한


Name	최남순(Choi, Nam-Soon)
Department	생명화학공학과(Department of Chemical and Biomolecular Engineering)
Phone	042-350-3925
E-Mail	nschoi@kaist.ac.kr

Name

최남순(Choi, Nam-Soon)

Department

생명화학공학과(Department of Chemical and Biomolecular Engineering)

Phone

042-350-3925

E-Mail

nschoi@kaist.ac.kr

Teaching Style	Lecture 100%
Education4.0 Q	N

Teaching Style

Lecture 100%

Education4.0 Q A teaching-learning model in which the classes are conducted in a diverse and creative manner, focusing on student-led interactions and questions, and the proportion of lectures is decreased.

A teaching-learning model in which the classes are conducted in a diverse and creative manner, focusing on student-led interactions and questions, and the proportion of lectures is decreased.

Syllabus File	Energy Engineering CBE 571.pdf
Syllabus URL
Summary of Lecture	This course is designed to provide an understanding of the two representative energy devices, fuel cells and rechargeable batteries. We will also discuss the current research trend on electrocatalysis for renewable energy and materials for next-generation batteries. At the end of this class, students will choose topic and give a presentation.
Material for Teaching	- Main textbook : Fuel Cell Fundamentals - Auxiliary textbook : Research papers published in top journals.
Evaluation Criteria	* The followings evaluation criteria may change: A. Attendance: 5% B. Midterm exam: 30% C. Final exam: 35% D.Quiz: 20% E. Report: % F. Assignments: % G. Project: % H.Presentation: 10% * Limitations on course retaking, if any:
Lecture Schedule	Week Contents 1 Fundamentals of electrochemistry I 2 Fundamentals of electrochemistry II 3 Fundamentals of fuel cells I 4 Fundamentals of fuel cells II 5 Oxygen reduction reaction catalysis 6 Hydrogen oxidation reaction catalysis 7 Water electrolysis 8 Midterm 9 Fundamentals of rechargeable batteries I 10 Fundamentals of rechargeable batteries II 11 Li-S batteries 12 Li-metal batteries and Li-O2 batteries 13 CO2 electrochemical reduction 14 Presentation I 15 Presentation II 16 Final exam
Memo	Hybrid class (하이브리드 수업: 대면+온라인)

Syllabus File

Energy Engineering CBE 571.pdf

Syllabus URL

Summary of Lecture

This course is designed to provide an understanding of the two representative energy devices, fuel cells and rechargeable batteries. We will also discuss the current research trend on electrocatalysis for renewable energy and materials for next-generation batteries. At the end of this class, students will choose topic and give a presentation.

Material for Teaching

- Main textbook : Fuel Cell Fundamentals
- Auxiliary textbook : Research papers published in top journals.

Evaluation Criteria

* The followings evaluation criteria may change:
A. Attendance: 5% B. Midterm exam: 30% C. Final exam: 35% D.Quiz: 20%
E. Report: % F. Assignments: % G. Project: % H.Presentation: 10%
* Limitations on course retaking, if any:

Lecture Schedule

Week Contents
1 Fundamentals of electrochemistry I
2 Fundamentals of electrochemistry II
3 Fundamentals of fuel cells I
4 Fundamentals of fuel cells II
5 Oxygen reduction reaction catalysis
6 Hydrogen oxidation reaction catalysis
7 Water electrolysis
8 Midterm
9 Fundamentals of rechargeable batteries I
10 Fundamentals of rechargeable batteries II
11 Li-S batteries
12 Li-metal batteries and Li-O2 batteries
13 CO2 electrochemical reduction
14 Presentation I
15 Presentation II
16 Final exam

Memo

Hybrid class (하이브리드 수업: 대면+온라인)

Infomation of Course

Information of Professor

Education4.0 Q

Plan of Lecture