2019 Recent technologies of fuel cells, solar cells butteries and energy system

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Academic unit or major
Graduate major in Energy Science and Engineering
Instructor(s)
Ihara Manabu  Yamada Akira  Hirayama Masaaki  Miyajima Shinsuke 
Course component(s)
Lecture
Day/Period(Room No.)
Intensive ()  
Group
-
Course number
ENR.B431
Credits
1
Academic year
2019
Offered quarter
2Q
Syllabus updated
2019/6/27
Lecture notes updated
-
Language used
English
Access Index

Course description and aims

This course focuses on 1) understanding the recent technologies of fuel cells, solar cell batteries, and energy systems. All classes are arranged such that students who do not have special knowledge of each energy technology can still understand. This course intends for students to comprehensively study recent energy technologies.

Student learning outcomes

At the end of this course, students will be able to
Understand and explain recent energy technologies.

Keywords

solar cells, fuel cells, lithium ion batteries, smart energy system

Competencies that will be developed

Intercultural skills Communication skills Specialist skills Critical thinking skills Practical and/or problem-solving skills

Class flow

In the first class, the instructor gives an overview of the course. All classes are arranged such that even students who do not have special knowledge of each energy technology can understand them. The instructor takes attendance every class. Students take a pert of the lectures together with international students who are participating in the Tokyo Tech summer program.

Course schedule
1. 13:20~14:50 on 17th July (Prof. Kazuhiko Maeda)
2. 15:05~16:35 on 17th July (Prof. Masaaki Hirayama)
3. 10:45~12:15 on 23rd July (Prof. Takashi Sasabe)
4. 09:00~10:30 on 24th July (Prof. Hidetoshi Matsumoto)
5. 10:45~12:15 on 24th July (Prof. Shinsuke Miyajima)
6. 09:00~10:30 on 25th July (Prof. Tetsuo Kodera)
7. 10:45~12:15 on 25th July (Prof. Takanori Tamaki)

Course schedule/Required learning

  Course schedule Required learning
Class 1 Photocatalytic materials for energy production (Prof. Kazuhiko Maeda): Fundamental chemistry of photocatalysis for conversion of light energy into chemical energy will be studied, with a focus on water splitting and CO2 fixation reactions. Several topics in materials developments and reaction mechanism will be given. Understand chemistry of photocatalysis for light energy conversion in terms of both thermodynamics and kinetics
Class 2 Electrochemical energy storage devices (Prof. Masaaki Hirayama): Fundamental science and developmental technology of electrochemical energy storage devices will be studied. After a brief review of battery science and technology, several topics in Materials developments, Reaction mechanism, and Development of new energy devices will be indicated Understand battery science and technology and research target for the future devices in order to satisfy the social demands
Class 3 Polymer electrolyte fuel cell technology (Prof. Takashi Sasabe): Understand electrochemical system and structure of fuel cell. Recent and future study on fuel cell would be demonstrated. Understand electro-chemical system and structure of fuel cell.
Class 4 One-dimensional (1-D) nanomaterials for energy device applications (Prof. Hidetoshi Matsumoto): this lecture deals with unique properties of 1-D nanomaterials including nanofibers and their applications for high-functional devices including supercapacitors, secondary batteries, and organic photovoltaics. Understand the characteristics of 1-D nanomaterials and applications in energy conversion and storage devices.
Class 5 Silicon solar cells (Prof. Shinsuke Miyajima): This lecture provides the basics of silicon solar cells. The structure, materials and fabrication techniques are outlined in details. Understand the basics of silicon solar cells.
Class 6 Quantum technologies for energy saving (Prof. Tetsuo Kodera): This lecture provides the basics of physics and device characteristics of advanced electron devices utilizing quantum technologies, and issues for their applications. Understand the physics and device characteristics of advanced electron devices utilizing quantum technologies.
Class 7 Systematic material design for polymer electrolyte fuel cells (Prof. Takanori Tamaki): Polymer electrolyte fuel cells (PEFCs) were commercialized for residential and automobile applications. However, a revolutionary improvement in the materials are essential for development and dissemination of this technology. Role of PEFCs in global warming issues and the systematic material design of PEFCs will be discussed. Understand a basic guideline to design materials used for PEFCs.

Textbook(s)

None required.

Reference books, course materials, etc.

Course materials are provided when necessary.

Assessment criteria and methods

Evaluation will be based on a reporting assignment or the quiz which is assigned during the classes.

Related courses

  • ENR.A401 : Interdisciplinary scientific principles of energy 1
  • ENR.A402 : Interdisciplinary scientific principles of energy 2
  • ENR.A403 : Interdisciplinary principles of energy devices 1
  • ENR.A404 : Interdisciplinary principles of energy devices 2
  • ENR.A405 : Interdisciplinary Energy Materials Science 1
  • ENR.A406 : Interdisciplinary Energy Materials Science 2
  • ENR.A407 : Energy system theory

Prerequisites (i.e., required knowledge, skills, courses, etc.)

No prerequisites.

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