同志社大学　シラバス検索／検索結果／Ａｄｖａｎｃｅｄ　Ｆｌｕｉｄ　Ｅｎｇｉｎｅｅｒｉｎｇ（Ｅ）

シラバス

※学期中に内容が変更になることがあります。

2020年度

31693004

○Ａｄｖａｎｃｅｄ　Ｆｌｕｉｄ　Ｅｎｇｉｎｅｅｒｉｎｇ（Ｅ）
Advanced Fluid Engineering (E)
2単位/Unit 春学期/Spring 京田辺/Kyotanabe 講義/Lecture

山口　博司

＜概要/Course Content Summary＞

This course provides an intensive lecture essential for understanding fluid engineering. These distinct， yet intertwined subjects are addressed in an integrated manner. It starts with coherent treatment of fundamental continuum mechanics， by which the fundamental concepts of fluid dynamics are progressively built up， and serve as a foundation for later development. The engineering treatment covers the design and operations of various turbomachines， heat exchangers and flow elements. In order to make the course self-contained， many exercises and problems are provided in addition to the numerous pedagogical aids that have been incorporated throughout. The intention is to facilitate the students to compose their knowledge into a better understanding of both the theoretical and applicable aspects of fluid engineering.　

＜到達目標/Goals,Aims＞

The content of this lecture enables students to classify flows and specific engineering problems， which can then be identified and formulated. The students can apply thier knowledge in prictical design of fluid machinaries.　

＜授業計画/Schedule＞

（実施回/ Week）	（内容/ Contents）	（授業時間外の学習/ Assignments）
（実施回/ Week） 1st week	（内容/ Contents） Introduction of the course	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 2nd week	（内容/ Contents） Basic concept for the fluyid engneering	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 3rd week	（内容/ Contents） Fundamentals in continuum mechanics　 1 Dynamics of fluid motion　 2 Reynolds’ transport theorem　 3 Forces on volume element	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 4th week	（内容/ Contents） Conservation equations in continuum mechanics.　 1 Mass conservation　 2 Linear momentum conservation　 3 Energy conservation　 4 Thermodynamic relations	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 5th week	（内容/ Contents） Fluid static and interfaces　 1 Fluid static　 2 Fluid-fluid interfaces　 Exercise	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 6th week	（内容/ Contents） Potential and inviscid flows　 Exercise	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 7th week	（内容/ Contents） General theories of turbomachinery　 1 Moment of momentum theory	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 8th week	（内容/ Contents） Airfoil theory 1　 Exercise　 Problems	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 9th week	（内容/ Contents） Airfoil theory 2　 Exercise　 Problems	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 10th week	（内容/ Contents） Efficiency and similarity rules of 　 turbomachinery 1　 Exercise　 Problems	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 11th week	（内容/ Contents） Efficiency and similarity rules of 　 turbomachinery 2　 Exercise　 Problems	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 12th week	（内容/ Contents） Cavitation　 Exercise　 Problems	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 13th weeek	（内容/ Contents） Unidirectional flow in a gap space　 1 Lubrication theory　 Exercise　 Problems	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 14th week	（内容/ Contents） Overall Exercise	（授業時間外の学習/ Assignments） Preparation and review of the contents
（実施回/ Week） 15th week	（内容/ Contents） Conclusions	（授業時間外の学習/ Assignments） Preparation and review of the contents

＜成績評価基準/Evaluation Criteria＞

General attitude(Attendance，DUET Class Participation， result of group work ect.)	40%	Students are requested to take lecture note
Topic report	30%	Topics are given through DUET
Final term report	30%	All stdents are requested to write final report

Direction of this class is given by DUET.

＜テキスト/Textbook＞

H. Yamaguchi， "Engineering Fluid Mechanics"， 2008， Springer

If you have a problem to access the text. Wikipedia, Harvard.edu...may be useful.

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