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科目の基本情報
| 開講年度 | 2024 年度 | |
|---|---|---|
| 開講区分 | 工学研究科(博士前期課程)機械工学専攻 | |
| 領域 | 主領域 : B; 副領域 : G | |
| 受講対象学生 |
大学院(修士課程・博士前期課程・専門職学位課程) : 1年次, 2年次 |
|
| 選択・必修 | 選択 |
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| 授業科目名 | 熱エネルギーシステム特論 | |
| ねつえねるぎーしすてむとくろん | ||
| Thermal Energy System | ||
| 単位数 | 2 単位 | |
| ナンバリングコード | EN-ENGY-5
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| 開放科目 | 非開放科目 | |
| 開講学期 |
前期 |
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| 開講時間 |
火曜日 1, 2時限 |
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| 授業形態 |
対面授業 * 状況により変更される可能性があるので定期的に確認して下さい
「オンライン授業」・・・オンライン会議ツール等を利用して実施する同時双方向型の授業 |
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| 開講場所 | Graduate School of Engineering | |
| 担当教員 | 丸山 直樹(地域イノベーション学研究科),西村 顕(工学研究科機械工学専攻) | |
| MARUYAMA, Naoki, NISHIMURA, Akira | ||
| SDGsの目標 |
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| 連絡事項 | * 状況により変更される可能性があるので定期的に確認して下さい |
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学修の目的と方法
| 授業の概要 | Understand the nature of Heat energy by solving the problems on Thermal engineering, Thermal energy systems, Heat cycle, Fluid engineering, Combustion, Chemical reactions. The aim is to acquire practical skills based on knowledge acquired in Thermodynamics and Energy conversion engineering. Texts and questions must be in English. |
|---|---|
| 学修の目的 | Solve a wide variety of problems related to Thermal engineering, Energy conversion, and Fluid engineering. |
| 学修の到達目標 | Through lectures and exercises, students will be able to imagine the phenomena of the problem, and learn the process of solving the problem. |
| ディプロマ・ポリシー |
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| 成績評価方法と基準 | Attendance in class is a necessary condition, and those who attend more than 80% are eligible for credit recognition. Approval of credits is judged based on the preparation for the exercise and the outcome. |
| 授業の方法 | 講義 演習 |
| 授業の特徴 |
プレゼンテーション/ディベートを取り入れた授業 教員と学生、学生相互のやり取りの一部が英語で進められる授業 |
| 授業アンケート結果を受けての改善点 | Students can learn the process how to solve the problem. In addition, we make extensive use of diagrams as well as verbal descriptions so that they can imagine situation. |
| 教科書 | Text: M. Fogiel and Ralph W. Pike, The Thermodynamics Problem Solver (Rea's Problem Solvers), 1986, Research & Education Assn. (ISBN: 0-87891-555-9) |
| 参考書 | Books on Thermodynamics, Energy conversion engineering, Heat transfer engineering, Fluid dynamics, etc. will be helpful. |
| オフィスアワー | Questions and suggestions are accepted in the lecture room after the lecture. Questions by e-mail are accepted anytime. |
| 受講要件 | Nothing in particular |
| 予め履修が望ましい科目 | Although there is nothing in particular, students who are interested in Thermodynamics, Heat transfer engineering, Energy conversion engineering, Various energy systems and Fluid engineering are expected. |
| 発展科目 | This lecture is useful for research on Thermodynamics, Energy conversion engineering, Thermal energy systems, Heat transfer engineering and Fluid engineering. |
| その他 |
英語対応授業である。 |
授業計画
| MoodleのコースURL |
|---|
| キーワード | 熱力学,熱力学第1法則,熱力学第2法則,熱エネルギーシステム,熱サイクル,再生可能エネルギー,エネルギー変換,混合気体,化学反応,流体力学 |
|---|---|
| Key Word(s) | Thermodynamics, The first law of thermodynamics, The second law of thermodynamics, Thermal energy system, Heat cycle, Renewable energy, Energy conversion, Mixture gas, Chemical reaction, Fluid dynamics |
| 学修内容 | The detailed contents and schedule are presented at the beginning of the lecture. The outline is as follows. 1. How to proceed with the class. Thermal engineering and units. 2. to 14. Solve the problems sequentially. 15. Summary Example of specific problems: ・Work and Heat ・Energy and the First Law of Thermodynamics ・Entropy and the Second Law of Thermodynamics ・Ideal and Real Gas Process and Relations ・Mixture and Solution ・Vapor Power and Refrigeration Cycles |
| 事前・事後学修の内容 | This lecture requires sufficient preparation for the problems. |
| 事前学修の時間:180分/回 事後学修の時間:60分/回 |