Current Students

Advanced Fluid Dynamics in Engineering

上海交通大学硕士研究生课程教学大纲

 

课程基本信息(Course Information

课程代码

Course Code

PE6120

*学时

Credit Hours

48

*学分

Credits

3

*课程名称

Course Name

(中文)高等工程流体力学

(英文)Advanced Fluid Dynamics in Engineering

课程性质

(Course Type)

专业基础课

Discipline Fundamental Course

授课语言

(Language of Instruction)

英文

English

*开课院系

School

中英国际低碳学院

China-UK Low Carbon College

先修课程

Prerequisite

流体力学 Fluid Mechanics

工程热力学 Engineering Thermodynamics

授课教师

Teacher

党琪

Qi Dang

课程网址

(Course Webpage)

/

 

*课程简介(Description

Fluid mechanics is a subject with significant importance in several fields of engineering and science. This course aims at helping students understand the fundamental principles of fluid flows and the application of these laws to real engineering problems.

This course will cover key physical concepts, basic laws of conservation (mass, momentum, and energy), analytical methods for different flows (inviscid flow and viscous flow, steady flow and unsteady flow, incompressible flow), and applications of the fundamental principles in fluid flow situations.

This course will help students develop an orderly approach to problem-solving. We usually start with governing equations, state assumptions for specific problems, and try to solve the problem and relate the mathematical expressions to the physical flow behaviors.

课程教学大纲(course syllabus

*学习目标(Learning Outcomes)
  • Master the important laws and principles including the conservation of mass, momentum, and energy
  • Apply these principles to understanding of different fluid phenomena
  • Solidify key concepts that are the essential building blocks of design and analysis of fluid mechanics

*教学内容、进度安排及要求

(Class Schedule

& Requirements)

Week 1 

Overall introduction and basic concepts

Fundamental conceptes of fluid mechanics;

Week 9

Incompressible viscous flow

Analytical solutions of 2D viscous incompressible flow

Week 2

Fundamental concepts and kinematics of fluid

Fluid kinematics;

Week 10

Incompressible viscous flow

Analytical solutions of 2D viscous incompressible flow

Week 3

Kinematics of fluid and conservations laws

Deformation and rotation; Conservation of mass;

Week 11

Incompressible viscous flow

Boundary layer theory

Week 4

Conservation laws

Conservation of momentum;

Week 12

Incompressible viscous flow

Boundary layer theory

Week 5

Conservation laws

Conservation of energy; Govening equations;

Week 13

Incompressible viscous flow

Turbulence

Week 6

Incompressible inviscid flow

Fundamental potential flows;

Week 14

Incompressible viscous flow

Turbulence

Week 7

Incompressible inviscid flow

Superposed potential flows

Week 15

Review

Extra learning staff and review

Week 8

Incompressible inviscid flow

Superposed potential flows

Week 16

Final exam

Final exam

 

 

 

 

 

 

 

*考核方式

(Grading)

The performance of students will be evaluated through a combination of regular assignments (40%) and a final exam (60%).

The emphasis will be placed on the selection of the appropriate physical principles and their application to engineering problems of particular interests. The students are required to numerically evaluate the analytical expressions for engineering problems.

*教材或参考资料

(Textbooks & Other Materials)

References:

Fluid Mechanics; Frank M. White. McGraw-Hill. 2016

Fluid Mechanics for Engineers; Meinhard T. Schobeiri. Springer. 2010

《高等工程流体力学》;张鸣远,景思睿,李国君编著,高等教育出版社出版,2012

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