シラバス参照

授業科目の概要

科目名称 International Environmental System Engineering III 
講義題目
ENERGY 
科目ナンバリング・コード  
担当教員

_

更新日付 2024/04/09 12:42
授業科目区分  
学部カテゴリ 工学府 
使用言語  
対象学部等  
対象学年 D1,D2,D3 
必修選択 選択必修 
単位数  
開講年度 2024 
開講学期 前期集中 
曜日時限 前期集中 その他 その他
教室
開講地区 伊都地区
授業科目に関する特筆事項
Lectures at the Seminar Room, 2nd Floor, Center for Research and Education of Environmental Technology (CE40 Building)

We also are using Moodle at each class, which has already been made available, so please check it out and register for the courses you wish to take. You can get information on your class after logging in with your SSO-KID and password.

https://moodle.s.kyushu-u.ac.jp/my/courses.php 



授業科目の目的・目標・履修条件について

授業科目の目的(日本語)
本コースは、地球環境問題に対して資源、エネルギー、防減災に関わる工学の高度な専門知識と学際的な視点を兼ね備え、それらを実践に活かせる研究者・技術者の育成を目指すものである。本コースの選択必修科目として開講される「International Environmental System Engineering II 」は、エネルギー科学、エネルギー工学、およびそれに関連する学理・技術についての基礎知識修得を目的とする。 
授業科目の目的(英語)
○Purpose of Lecture:
The program “International Course for Sustainable Environmental Engineering” trains scientists and engineers who can solve global environmental issues based on the advanced knowledge of engineering, particularly for resources, energies, and prevention/reduction of disasters. “International Environmental System Engineering II” is one of the four representing classes (elective/required subjects) in this program, which aims at acquiring basic knowledge of energy science, energy engineering, and related technologies. 
キーワード
Relativistic kinematics, Nuclear decays, Low-energy nuclear reaction, History of the universe, Evolution of stars, Nucleosynthesis, Nuclear data, high-energy nuclear reaction, Radiation transport simulation, Ionizing radiation, Radiation detectors, Neutrons, Medical and industrial applications, Interaction of photons with matter, Characteristic x-rays, Gamma rays, Spectroscopy, Energy resolution, Nuclear fuel cycle, Reprocessing of spent fuel, Nuclear waste management, Fusion energy, Nuclear fusion reaction, Thermonuclear fusion, Ignition condition, Tokamak reactor, ITER project, Nucelar reactors, Generation IV reactors, Fast reactors, Nuclear thermal hydraulics, Nuclear safety, Reactor engineering, quantum mechanics, statistical physics, many-body quantum effects, superconductivity, magnetism, solid state, crystal structure, electronic bands, semiconductors, Fossil fuels, Production, Enhanced oil recovery, CCUS, Hydrogen, Hydrocarbons, petroleum system, CCS, site screening, geology, geophysics, Field survey, remote sensing, geophysics, drilling, interpretation, modelling. Heat source, Plate tectonics, Volcano, Subsurface structure, Geothermal system, Temperature profile, Geothermal energy, Drilling, Wireline logging, Well testing, Geothermal reservoir monitoring, Gravity measurement, Mass change 
学位プログラムの学修目標 授業科目の到達目標(評価の観点)
   
   

※学修目標と授業科目の結びつきの強さ

カリキュラム・マップ  
ルーブリック

授業科目の実施方法について

授業の方法
講義
演習
教授・学習法
一方向性の知識伝達型の教授・学習法
グループ・ディスカッション
グループワーク・ペアワーク
プレゼンテーション
遠隔授業
対面授業の形で実施する
遠隔授業の形で実施する
Moodleコース情報
コース設定あり
Moodleトップ画面(https://moodle.s.kyushu-u.ac.jp/course/index.php)
使用する教材
教科書・参考書・印刷資料
板書
スライド資料
映像・音声資料(字幕なし)
映像・音声資料(字幕あり)
教材の配布方法
Moodle/B QUBE
独自webサイト
机上配布
提示のみで配布しない
テキスト
授業計画 授業計画は予定であり、学びの進捗に合わせて変更することがあります。
1単位あたりの学修時間(45時間)の内訳(目安)
(講義・演習の場合)授業内学修15時間、事前・事後学修30時間
(実験、実習および実技の場合)授業内学修30~45時間、事前・事後学修0~15時間
授業のテーマ 授業の内容(90分授業=2時間) 事前/事後学修の内容
1 Nuclear Physics and Electromagnetic Instrumentation  Concepts of Nuclear Physics are introduced. Experimental techniques of nuclear reaction are explained. Current topics of
nuclear reaction data and particle accelerators are described 
Review the contents of class, and submission of report on the assignment subjects. 
2 Nuclear Physics and Electromagnetic Instrumentation  Same with No.1  Review the contents of class, and submission of report on the assignment subjects. 
3 Radiation Physics and Measurements  Radiation physics and particle detectors are explained. Current
topics of radiation applications in medicine and Industry are described. 
Review the contents of class, and submission of report on the assignment subjects. 
4 Radiation Physics and Measurements  Same with No.3  Review the contents of class, and submission of report on the assignment subjects. 
5 Nuclear Fuel Cycle  The concept of the nuclear fuel cycle is introduced.
Current topics on the nuclear fuel cycle and nuclear waste management are described. 
Review the contents of class, and submission of report on the assignment subjects. 
6 Nuclear Reactor Physics and Fusion Energy Science  Basic principles of fusion energy utilization and the present status of R&D are explained.  Review the contents of class, and submission of report on the assignment subjects. 
7 Fast Reactor Engineering  Fast reactors, one of the Generation IV reactors, which provide sustainable nuclear power for "thousands of years," will be introduced from the viewpoints of thermal-hydraulics and safety engineering. The latest topics of fast reactor development in the world will also be presented.  Review the contents of class, and submission of report on the assignment subjects. 
8 Condensed Matter Physics  Macroscopic properties of materials are explained from microscopic view points, such as molecules, atoms, and electrons, based on quantum mechanics.  Review the contents of class, and submission of report on the assignment subjects. 
9 Condensed Matter Physics  The emerging properties of solids are explained from the point of interactions between atoms and electrons. Basic introduction into semiconductor physics is given with brief overview of modern hot topics in the field.  Review the contents of class, and submission of report on the assignment subjects. 
10 Introduction to new technologies for fossil fuel resources production  Trend of research and development for new technologies producing fossil fuels resources such as coal, oil and natural gas.  Review the contents of class, and submission of report on the assignment subjects. 
11 Part 1a. Exploration of energy resources  Geological risk assessment for hydrocarbon exploration and CCS  Review the contents of class, and submission of report on the assignment subjects. 
12 Part 1b. Exploration of energy resources  Methods to explore the subsurface and produce the resources use state-of-the-art knowledge and technology.  Review the contents of class, and submission of report on the assignment subjects. 
13 Part 2a. Volcanoes and geothermal systems  In this lecture, the topics on internal structure of the earth, heat source of the earth, generation of volcanoes, and geothermal system are introduced.  Preparation and review of the class by using the handouts, and submission of reports on the assignment subjects. 
14 Part 2b Geothermal production engineering  The outlines of drilling, wireline logging, and well testing, including an analog experiment, are introduced, which are crucial in sustainably developing geothermal energy.  Prepare by reading the handout in advance and, after the lecture, submit a short report. 
15 Part 2c. Monitoring of geothermal systems  Theory, instruments and methods of gravity measurement, and application for the groundwater, geothermal reservoir and volcanic activity monitoring  Review the handout for the class, and submission the asignment subject. 

授業科目の成績評価の方法について

授業科目に関する学習相談について

合理的配慮について
障害(難病・慢性疾患含む)があり、通常の方法による授業を受けることが困難な場合には、教育目的の本質的な変更など過重な負担を伴わない限り、合理的配慮を受けることができます。合理的配慮とは、教授・学習法の変更、成績評価の方法の変更、授業情報の保障(資料の字幕化、個別の資料配布、録音・撮影の許可)、受講環境の調整などを指します。実際の方法については担当教員と建設的対話を行った上で決定されます。
<相談窓口> キャンパスライフ・健康支援センター インクルージョン支援推進室(伊都地区センター1号館1階)
(電話:092-802-5859 E-mail:inclusion@chc.kyushu-u.ac.jp)
修学上の合理的配慮の流れに関する部局HP https://www.eng.kyushu-u.ac.jp/studentsupport.html#support-with-disabilities 

添付ファイル

添付ファイル


PAGE TOP