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現在位置: ホーム ja シラバス(2020年度) エネルギー科学研究科 エネルギー変換科学専攻 Fusion Energy Science and Technology

Fusion Energy Science and Technology

JA | EN

科目ナンバリング
  • G-ENE20 63392 LE77
  • G-ENE20 63392 LE28
開講年度・開講期 2020・後期
単位数 2 単位
授業形態 Lecture
配当学年 修士
対象学生 大学院生
使用言語 英語
曜時限 火1
教員
  • 小西 哲之(エネルギー理工学研究所 教授)
  • 長﨑 百伸(エネルギー理工学研究所 教授)
  • 森下 和功(エネルギー理工学研究所 准教授)
授業の概要・目的 Subjects on the science and technology of the latest information on the development of fusion energy are offered from viewpoints of energy generation, technology, material and utilization
到達目標 To understand basic knowledge and latest topics on energy generation, conversion, control and utilization of fusion energy from the aspect of technology, materials and application.
To analyze and critically evaluate the energy systems technology on which each students will be studying, and to discuss a strategy of study from social, technical, environmental and sustainability aspects.
授業計画と内容 Latest topics about the development of fusion reactor, its energy conversion systems, and material issues are lectured by 15 times of classes including feed back.
1. Fusion Energy Conversion (Konishi)
(1)Development of Fusion Devices: Recent progress of fusion development on the confinement of high temperature plasma and extraction of the product energy and plant systems.
(2)Fusion Energy Conversion System:Technology of converting fusion energy to electricity, heat and fuel production. Environmental impact, safety, economics and social aspect of fusion will also be explained.
(3)Fusion Safety:Basic of the safety analysis and risk control related to energy technology is lectured focused on nuclear issues using fusion as an example.
(4)Energy and environment:Environmental issue, evaluation of energy system from the aspect of climate change problem is discussed.
(5)Fusion economics: Economics of advanced energy research and development is discussed on fusion as an example.
2. Control of fusion energy (Nagasaki)
 (6)Ignition condition
 (7)Magnetic confinement system
 (8)Confinement, transport and stability
 (9)Plasma heating
(10)Current status of fusion plasma experiments
3. Recent Progress in Fusion Structural Materials R&D (Morishita)
(11)Fusion blanket structural materials
(12)Material requirements for fusion application
(13)Effects of high energy neutron irradiation
(14)Modeling of radiation damage process in fusion materials
(15)Current status of fusion materials R&D
成績評価の方法・観点 Attendance and report(term paper) will be required. Evaluation will be based on the scores of each reports to be given as 100 point maximum.
履修要件 特になし
授業外学習(予習・復習)等 Occasional homeworks may be given to consider an energy related topics.
教科書
  • Original materials are provided.Some materials are available on the web with limited access.
参考書等
  • to be introduced in the lecture