Course title
E07344004
Electrical System Design

 nakamura yoshimichi Click to show questionnaire result at 2019

takami hiroshi

kamitsukasa yutaka
Course description
Government is going to recommend toughening of electric power system after blackout of Hokkaido due to the impact of Hokkaido Earthquake that occurred in September 2018. The renewable energy network is required to change to reliable supplier of energy. Now power supply and consumption environment is going to change drastically as below.
1) Ensuring renewable energy business economically.
2) Realize distributed energy system using renewable energy and battery.

Will provide information of future energy system like VPP(Virtual Power Plan), Blockchain, ZEH and ZEB at this class.
At this class, newest distributed energy system and new power service knowledge will be understood. Also you can get knowledge of intelligent power supply and other systems.
And in this class, project learning will be started in parallel. At this lecture, you can experience unique curriculum. We will provide you some theme of problems which we are having now. And you can discuss about it with team mate and make presentation at the last of class. This curriculum is very useful for when you out to the society.
Purpose of class
1. Can get knowledge of energy and new power service.
2. Can understand new technology like “Blockchain” which will be useful for future energy business.
3. Can get performance of team building and presentation through project learning examination.
4. Can get knowledge of system design through project learning.
Goals and objectives
  1. Understand global warming, energy problems, future energy system and vision & technology to realize low carbon society.
  2. Understand distributed energy system and self-generation and self-consuming type of energy system.
  3. Understand constitution of power system, basic digital power supply, overview of smart energy system and development method.
  4. Understand overview of blockchain.
  5. Understand basic programming method using Python.
  6. Understand fun of design and importance of the communication.
  7. To build image of after graduation by listening the story from business side.
Language
Japanese
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. Latest trend of energy system
The need for distributed energy
About sustainable society
Introduction of newest energy system
Exercises of Project learning  
 Explain about Project learning
  Grouping
  Decide theme at each group 		Check Syllabus 10minutes
Investigate what is project learning 20minutes
2. Global warming and energy issues 
About Paris agreement  
Energy basic plan in Japan
*Exercises work of each project 		Investigate about global warming and energy issues
Check about global warming from IPCC report 		30minutes
3. Power service    
Construction of new power
Power generation(How to introduce renewable energy)
VPP (Virtual Power Plant)
Blockchain
Energy saving, ZEH, ZEB
*Exercises work of each project 		Check new power service at Web 20minutes
4. Blockchain and Energy 1
Overview and feature of Blockchain 		Investigate about blockchain 30minutes
5. Blockchain and Energy 2
Application for energy 		Investigate about blockchain 30minutes
6. Intelligent power supply(1)   
 Basic knowledge of power supply
 Explain SCALE simulator
 Check operation of each module using SCALE simulator(Timer, A/D)
 *Exercises work of each project 		Check text book 15minutes
7. Intelligent power supply(2)
 Check operation of each module using SCALE simulator(PWM)
What is digital signal processing
Digital filter
*Exercises work of each project and presentation 		Check text book 15minutes
8. 8. Intelligent power supply(3)
P control, PI control, PID control
Digital power supply
*Exercises work of each project 		Check text book 15minutes
9. Presentation Create presentation material 60minutes
10. Introduction of Python 1
 What is Python
 Anaconda install
*Exercises work of each project 		Investigate about Python 30minutes
11. Introduction of Python 2
 Mathematical field (Matrix, random, Sign, Graph)
 *Exercises work of each project and presentation 		Investigate about Python 30minutes
12. Python programming
 *Exercises work of each project 		Investigate about Python 30minutes
13. How to use Python
Python application
 *Exercises work of each project 		Investigate about Python 30minutes
14. Last presentation Practice of presentation at each group 60minutes
Total. - - 425minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 Report1 Report2 Presentation Total.
1. 20% 20% 60% 100%
2. 0%
3. 0%
Total. 20% 20% 60% -
Evaluation method and criteria
Goal1
・Submission of report for lecture [1-8] (20%)
Goal2
・Submission of report for lecture [10-13] (20%)
Goal3
・Evaluation of presentation of each project for lecture [2-13] (60%)
Textbooks and reference materials
Provide in lecture
Prerequisites
・Need to get information of global warming, government energy policy and new power service by newspaper or Internet.
・Desirable to understand MCU, electric circuits and C and Python language.
Office hours and How to contact professors for questions
  • During and after class
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates a basic problem-solving skills
  • Course that cultivates a basic interpersonal skills
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
Applicatable Have a newest distributed power supply knowledge through energy consultant business. Also key member of distributed power supply subgroup at the institute of electrical engineering.
Education related SDGs:the Sustainable Development Goals
    Last modified : Sun May 03 04:03:29 JST 2020