Course title
4M498000
Radiative Heat Transfer

 yamada jun Click to show questionnaire result at 2018
Course content
There are three modes in heat transfer, heat conduction, heat convection, and radiative heat transfer. (Strictly speaking, two modes exist, heat conduction and radiative hear transfer) In undergraduate course, heat conduction and heat convection are chiefly treated. In this course, all level from the basics to the advanced level for radiative heat transfer is discussed. In addition, radiation phenomena with wavelike behavior is discussed from the electromagnetic view point and and the classical dispersion theory is briefly reviewed.
Purpose of class
Purpose of class are to quantitatively estimate radiative heat transfer in a simple system by understanding radiation phenomena. In addition, it is to predict radiative characteristics of materials based on dynamics of electrically charged particles consisting the material.
Goals and objectives
  1. ふく射(光)を多様な現象を光学を基礎として説明できる.
  2. ふく射(光)が見せる多様な現象を応用した光デバイスや機械技術を光学を基礎として説明できる.
  3. ふく射伝熱の基礎を理解と,それを伝熱問題に応用できる
  4. 金属や誘電体の光物性を電磁波動論を基礎として説明できる
Language
Japanese
Class schedule

 Class schedule HW assignments (Including preparation and review of the class.) Amount of Time Required
1. ふく射(光)の基礎
・光・電磁波・熱ふく射
・ふく射の反射・吸収・放射 		光学に関する基礎を見直しておく 60minutes
2. ふく射(光)の基礎
・散乱,吸収
・干渉
・光・ふく射・電磁波の係わる様々な技術 		光散乱現象について調べて置くこと 60minutes
3. ふく射伝熱の基礎
・ふく射伝熱の概要
・プランクの黒体ふく射
・ウィーンの法則
・放射率,反射率
・キルヒホッフの法則 		光の干渉の基礎を見直しておく 120minutes
4. ふく射伝熱の基礎
・ふく射強さ,ふく射流速 		伝熱学におけるふく射伝熱を見直しておく. 120minutes
5. ふく射伝熱の評価法
・形態係数
・射度,入射度 		講義資料を読んでおく 90minutes
6. ふく射伝熱の実用的評価法 ー射度,入射度ー 講義資料を読んでおく 90minutes
7. ふく射伝熱の実用計算演習 講義資料を読んでおく 180minutes
8. ふく射の電磁波動論的取り扱い
ーMaxwell方程式の基礎ー
ー1次元Maxwell方程式の解法と平面波ー 		講義資料を読んでおく 60minutes
9. 古典分散理論の基礎 ー振動子モデルー 講義資料を読んでおく 60minutes
10. 古典分散理論の基礎 ーLorentsモデルー 講義資料を読んでおく 60minutes
11. 古典分散理論の基礎 −誘電体,金属の光物性ー 講義資料を読んでおく 60minutes
12. 古典分散理論の基礎 −Drude Theoryー 講義資料を読んでおく 60minutes
13. 古典分散理論の基礎 ーDebye Relaxation, Kramers-Kronig Relationsー 講義資料を読んでおく 60minutes
14. 試験および総括 講義資料を読んでおく 300minutes
Total. - - 1380minutes
Relationship between 'Goals and Objectives' and 'Course Outcomes'

 課題1 課題2 課題3 課題4 Total.
1. 10% 0% 0% 0% 10%
2. 10% 0% 0% 0% 10%
3. 0% 25% 25% 0% 50%
4. 0% 0% 0% 30% 30%
Total. 20% 25% 25% 30% -
Evaluation method and criteria
4回の課題レポートあるいは試験の成績により評価する.
課題(あるいは試験)成績の満点60%以上をもって合格とする.
Textbooks and reference materials
参考書
Thermal Radiative Transfer & Properties, M. Q. Brewster
Radiative Heat Transefer, M. F. Modest, Academic Press
Thermal Radiation Heat Transfer, R. Siegel & J. R. Howell, Taylor & Francis Group
Prerequisites
特になし
Office hours and How to contact professors for questions
  • pm 12:30 - 13:00 on Monday
Relation to the environment
Non-environment-related course
Regionally-oriented
Non-regionally-oriented course
Development of social and professional independence
  • Course that cultivates an ability for utilizing knowledge
Active-learning course
About half of the classes are interactive
Last modified : Wed Oct 17 07:07:58 JST 2018