| Course label : | Dynamics of viscous incomplessible flows |
|---|---|
| Teaching departement : | CMA / |
| Teaching manager : | Mister JEAN-MARC FOUCAUT |
| Education language : | |
| Potential ects : | 2 |
| Results grid : | |
| Code and label (hp) : | MR_TUR_CMA_DVI - Dynamics of viscous flows |
Education team
Teachers : Mister JEAN-MARC FOUCAUT
External contributors (business, research, secondary education): various temporary teachers
Summary
The aim of the course is to create a deeper and a wider knowledge of fundamental fluid mechanics. Emphasis is put on the governing equations. A red line through the course is the interpretations of flow phenomena in context based on the governing equations. Introduction on Continuous medium, Stress tensor, characteristics of fluid at rest and in motion are first given. Then, statics, kinematics and dynamics of inviscid are looked at. The momentum theorem and the Bernoulli principle are explained. The dynamics of viscous flow is then studied. The Navier-Stokes equations are derived and solved for some simple classical cases (Channel, pipe, Taylor-Couette flow). There are plenty of relations with the other courses of the master program which need the knowledge of the present lecture. The links are evidenced for Turbulence, Dynamics of compressible flows and similarity, Experimental techniquesᅵ
Educational goals
At the end of the course, the student will be able to: - To address a fluid mechanics problem of fluid movement. - Analyze, understand and model a problem. - To have a good background in fluid dynamics. The competences introduces in this lecture are : - Conduct research and studies by implementing a multidisciplinary approach to solve complex scientific and technical problems of all or part of aeronautical or space systems. - Design, develop and evaluate innovative solutions, products, processes or services using engineering methods and tools (requirements engineering, risk engineering, design, modeling and simulation software, etc.) to meet specifications.
Sustainable development goals
Knowledge control procedures
Final Exam
Comments: The evaluation will be done by a terminal exam.
Online resources
Fluid mechanics course material Exercises
Pedagogy
Class sessions with active student participation will be set up with classical blackboard teaching. Each session will be followed by one or more exercises to be done independently and prepared at home. At the next tutorial session, these exercises will be corrected.
Sequencing / learning methods
| Number of hours - Lectures : | 15 |
|---|---|
| Number of hours - Tutorial : | 10 |
| Number of hours - Practical work : | 0 |
| Number of hours - Seminar : | 0 |
| Number of hours - Half-group seminar : | 0 |
| Number of student hours in TEA (Autonomous learning) : | 0 |
| Number of student hours in TNE (Non-supervised activities) : | 0 |
| Number of hours in CB (Fixed exams) : | 0 |
| Number of student hours in PER (Personal work) : | 0 |
| Number of hours - Projects : | 0 |
Prerequisites
Good level in math