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現在位置: ホーム ja シラバス(2020年度) 工学研究科 原子核工学専攻 基礎電磁流体力学

基礎電磁流体力学

JA | EN

科目ナンバリング
  • G-ENG08 5C076 LE28
開講年度・開講期 2020・前期
単位数 2 単位
授業形態 講義
配当学年 修士・博士
対象学生 大学院生
使用言語 英語
曜時限 木2
教員
  • 村上 定義(工学研究科 教授)
  • 横峯 健彦(工学研究科 教授)
授業の概要・目的 This course provides fundamentals of magnetohydrodynamics which describes the dynamics of electrically conducting fluids, such as plasmas and liquid metals. The course covers the fundamental equations in magnetohydrodynamics, dynamics and heat transfer of magnetofluid in a magnetic field, equilibrium and stability of magnetized plasmas, as well as illustrative examples.
到達目標 The students can understand fundamentals of magnetohydrodynamics which describes the dynamics of electrically conducting fluids, such as plasmas and liquid metals. Moreover, the students will figure out the applications of magnetohydrodynamics to the various science and engineering fields.
授業計画と内容 Liquid Metal MHD,7 classis
1. Introduction and Overview of Magnetohydrodynamics
2. Governing Equations of Electrodynamics and Fluid Dynamics
3. Turbulence and Its Modeling
4. Dynamics at Low Magnetic Reynolds Numbers
5. Glimpse at MHD Turbulence & Natural Convection under B field
6. Boundary Layers of MHD Duct Flows
7. MHD Turbulence at Low and High Magnetic Reynolds Numbers

Plasma MHD,8回
1. Introduction to Plasma MHD
2. Basic Equation of Plasma MHD
3. MHD Equilibrium
4. Axisymmetric MHD Equilibrium
5. Ideal MHD Instabilities
6. Resistive MHD Instabilities
7. MHD Waves in Plasmas
8. Student Assessment
成績評価の方法・観点 出席およびレポート(2回)
第15週に学習到達度の確認を行う。
履修要件 Fundamental fluid dynamics and electromagnetics should be learned prior to attend this lecture.
授業外学習(予習・復習)等 Reports will be assigned as necessary for your review.
教科書
  • The presentation document will be distributed at the lecture.
参考書等
  • P. A. Davidson, “An Introduction to Magnetohydrodynamics,”Cambridge texts in applied mathematics, Cambridge University Press, 2001