科目名
Course Title
500 宇宙熱物理工学特論 [Thermo-physics for Space Engineering]
e3: Thermo-physics for Space Engineering [宇宙熱物理工学 E]
講義題目
Subtitle
責任教員
Instructor-in-charge
担当教員
Other instructors
科目種別
Class specification
中村 祐二 [機械宇宙工学部門]
Yuji NAKAMURA [Division of Mechanical and Space Engineering] Email: yuji-mg@eng.hokudai.ac.jp
工学院専門科目 Engineering
開講年度
Academic year
2011
開講学期
Semester
1 学期
Summer
時間割番号
e3 Course No.
3718
授業形態
Class type
対象学科・クラス
Eligible department/class
講義
Lecture
単位数
Credits
補足事項
Other information
2
対象年次
Expected students
MC1 ～ DC3
キーワード Keywords:
chemical reaction, combustion, analysis, theory
授業の目標 Objectives:
to understand the basic equation governed by the combustion system (known as “complex” physics), and how to simplify to predict
the phenomena.
到達目標 Goals:
to understand the combustion theory; learn one of effective ways to simplify the complex (multi-scale, multi-physics) problem
授業計画 Outline:
Introduction (1 time)
Classification of combustion, Introduction of basic equation, Ways to a simplification
Chemical reaction (3 times)….. chemical system without transport effect
Overview of fundamental idea of chemical reaction, equilibrium state, reaction rate expression, reaction model (simplified)
Ignition theory (1 time) ……chemical system with simplified transport effect
Definition of delay time, Frank-Kamenetskii’s theory
Premixed flame theory (4 times) ……chemical system with transport effect (1): chemical-controlled
Rankine-Hugoniot equation, Premixed flame structure, Prediction of burning rate (asymptotic analysis), Instability analysis
Diffusion flame theory (4 times) ……chemical system with transport effect (2): transport-controlled
Mixture fraction analysis, Fendell curve, Burke-Schumann flame theory, Droplet combustion (B-number theory for
heterogeneous combustion)
Combustion modeling (2 times)
Prediction of regression rate of solid propellant, Fire modeling
Final Exam
成績評価の基準と方法 Grading:
50%: assignments (several assignments are requested during the term), 50%: final exam
テキスト・教科書 Textbooks:
講義指定図書 References:
The Molecular Theory of Gases and Liquids (J.O. Hirschfelder, C.F. Curtiss, R.B. Bird), John Wiley and Sons, 1954
Combustion Theory (F.A. Williams), Addison-Wesley, 1985
The Mathematics of Combustion (J.D Buckmaster ed), SIAM 1985
Fundamental Aspects of Combustion (A. Linan & F.A. Williams), Oxford Univ. Press, 1993
Combustion Analysis (T. Niioka), Tohoku Univ. Press, 2003 (in Japanese)
Combustion Physics (C.K. Law), Cambridge University Press, 2006
Fundamentals of Fire Phenomena (J.G. Quintiere), John Wiley and Sons, 2009
参照ホームページ Website: N/A
備考 Note: Students are required to have sufficient knowledge in thermodynamics, fluid dynamics, mathematics (advanced is
preferred). Final exam could be interview (oral) style, not conventional written test to check the understanding of each individual
(however, it depends on the number of students in the class).