Course title
1M8030001
Smart Grid Technology

fujita goro
Course content
Various power source formats extending beyond existing electrical business frameworks are proliferating due to easing of regulations. This course will first address the legal framework existing as a social backdrop. Next, various representative smatr grid technologies such as photovoltaics, cogeneration systems, wind power generation, and fuel cells will be introduced, and the developmental background, basic technology, implementation conditions, and future prospects will be explained. Investigative presentations of various dispersed power sources will be held each class.
Purpose of class
The purpose of this class is to become capable of explain many smart grid technology
Goals and objectives
  1. Possible to explain function of smart grid technology
  2. Possible to explain structure of smart grid technology
  3. Possible to explain feature of smart grid technology
Language
English
Class schedule

Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Overview of smatr grid technology Check the syllabus 50minutes
2. Investigative presentations of various smart grid technology (1) ex. fuel cell Prep for the relevant topics. 200minutes
3. Investigative presentations of various smart grid technology (2) ex. PV Prep for the relevant topics. 200minutes
4. Investigative presentations of various dispersed power system technology (3) ex. GT Prep for the relevant topics. 200minutes
5. Investigative presentations of various dispersed power system technology (4) ex.operation Prep for the relevant topics. 200minutes
6. Investigative presentations of various smart grid technology (5) ex. new energy Prep for the relevant topics. 200minutes
7. Investigative presentations of various smart grid technology (6) ex. nuclear plant Prep for the relevant topics. 200minutes
8. Investigative presentations of various smart grid technology (7) ex. wireless power tranmission Prep for the relevant topics. 200minutes
9. Investigative presentations of various smart grid technology (8) ex. DG Prep for the relevant topics. 200minutes
10. Investigative presentations of various smart grid technology (9) ex. NaS BT Prep for the relevant topics. 200minutes
11. Investigative presentations of various smart grid technology (10) ex. power storage Prep for the relevant topics. 200minutes
12. Investigative presentations of various smart grid technology (11) ex. inverter Prep for the relevant topics. 200minutes
13. Investigative presentations of various smart grid technology (12) ex. energy cost Prep for the relevant topics. 200minutes
14. Investigative presentations of various smart grid technology (13) 13. microgrid Prep for the relevant topics. 200minutes
Total. - - 2650minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

Presentation Discission Total.
1. 20% 15% 35%
2. 20% 15% 35%
3. 20% 10% 30%
Total. 60% 40% -
Evaluation method and criteria
Presentation 60% (each student will give a presentation) and discission 40% for a total possible score of 100points. A total score of 60 points of higher will be required to pass.
Textbooks and reference materials
IEEE Power & Energy (magazine)
Prerequisites
Supplementaly knowledge relating to generating units and power systems is required to understanding the lecture.
Office hours and How to contact professors for questions
  • After lecture and Thursday.
Relation to the environment
Environment-related course (10%)
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates an ability for utilizing knowledge
Active-learning course
About half of the classes are interactive
Course by professor with work experience
Work experience Work experience and relevance to the course content if applicatable
N/A N/A
Last modified : Thu Mar 21 16:03:54 JST 2019