<概要/Course Content Summary>
The students who are going to take this course should have already passed the course of Advanced Application of Electronics. This course addresses several advanced topics, technical challenges and hot issues in electrical and electronics engineering. The course material will include structure and components of modern electrical networks, wide-area measurement system and its application in parameter identification, stability analysis and protection/control synthesis; power electronic devises, grid-connected distributed generators, microgrid dynamic and modeling, hierarchical control concept, virtual plant and virtual synchronous generator, and intelligent power grid operation and control.
<到達目標/Goals,Aims>
The topics given in this course covers the most important issues in modern electric industry. After successful completion of this course, the students will learn many analysis and synthesis tools and methodologies. They will be able to conduct a research in wide area of electrical and electronics engineering, particularly in power systems, smart grids, microgrids, renewable energy sources and power electronic converters/inverters. In this course, the student will complete and present a research project in one of given main subjects in the contents.
<授業計画/Schedule>
(実施回/
Week)
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(内容/
Contents)
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(授業時間外の学習/
Assignments)
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(実施回/ Week)
1
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(内容/ Contents)
An Introduction and Course Description
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(授業時間外の学習/ Assignments)
Discussion
|
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(実施回/ Week)
2
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(内容/ Contents)
Modern Electrical Networks and Challenges
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(授業時間外の学習/ Assignments)
Discussion
|
|
(実施回/ Week)
3
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(内容/ Contents)
Synchronized Phasor Measurement
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(授業時間外の学習/ Assignments)
Discussion
|
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(実施回/ Week)
4
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(内容/ Contents)
Wide-Area Measurement System (WAMS)
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(授業時間外の学習/ Assignments)
Homework
|
|
(実施回/ Week)
5
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(内容/ Contents)
WAMS-based Monitoring and Stability Analysis
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(授業時間外の学習/ Assignments)
Discussion
|
|
(実施回/ Week)
6
|
(内容/ Contents)
WAMS-based Control
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(授業時間外の学習/ Assignments)
Discussion
|
|
(実施回/ Week)
7
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(内容/ Contents)
WAMS-based Protection
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(授業時間外の学習/ Assignments)
Discussion
|
|
(実施回/ Week)
8
|
(内容/ Contents)
Power Electronic Converters
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(授業時間外の学習/ Assignments)
Homework
|
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(実施回/ Week)
9
|
(内容/ Contents)
Grid-connected Renewable Energy Sources
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(授業時間外の学習/ Assignments)
Discussion
|
|
(実施回/ Week)
10
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(内容/ Contents)
DGs and Microgrids for Control Support
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(授業時間外の学習/ Assignments)
Discussion
|
|
(実施回/ Week)
11
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(内容/ Contents)
Microgrid Dynamics and Modeling
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(授業時間外の学習/ Assignments)
Homework
|
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(実施回/ Week)
12
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(内容/ Contents)
Hierarchical Control in Microgrids
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(授業時間外の学習/ Assignments)
Discussion
|
|
(実施回/ Week)
13
|
(内容/ Contents)
Virtual Plant and Virtual Synchronous Generator
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(授業時間外の学習/ Assignments)
Homework
|
|
(実施回/ Week)
14
|
(内容/ Contents)
Intelligent Power Grid Operation and Control
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(授業時間外の学習/ Assignments)
Discussion
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(実施回/ Week)
15
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(内容/ Contents)
Course Summary and Concluding Remarks
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(授業時間外の学習/ Assignments)
Discussion
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Students should attend all classes.
<成績評価基準/Evaluation Criteria>
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Attending and Activities
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20%
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Students performance
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Homework
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20%
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4 Homework
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Research Report
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60%
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To be announced in the class
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|
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Please ask your academic supervisor or regents professor.
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<テキスト/Textbook>
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H. Bevrani, B. Francois, T. Ise 『Microgrid Dynamics and Control』1st Ed.
(Wiley、2017)
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H. Bevrani, T. Hiyama 『Intelligent Automatic Generation Control』1st Ed.
(CRC、2017)
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S. M. Sharkh, et al. 『Power Electronic Converters for Microgrids』1st Edition
(Wiley-IEEE、2014)
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H. Bevrani, M. Watanabe, Y. Mitani 『Power System Monitoring and Control』1st Edition
(Wiley-IEEE、2014)
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