Positionnement dans le cursus
Semestre 5
TC
TC
TC
LV
TC
TC
TC
 
 
P - Intro
Stage
Intersemestre
Semestre 6
TC
TC
TB 1
LV
O 1
 
TC
TC
TB 2
 
O 2
 
P - Citoyen
Semestre 7
M 1
M 1
TB 3
TC
LV
M 1
M 1
TB 3
TC
O 4
O 3
 
P - Tech
Intersemestre
Semestre 9
M 2
M 2
D
LV 2/3
O 6
M 2
M 2
D
 
0 3
 
P - industriel
Intersemestre

Course group - M-FD

M- FLUID DYNAMICS

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ECTS credits

10.0

Course Director(s):

  • MARTIN Sylvain

    • General Description:

    At the end of this major, a student will be able to implement an appropriate approach to deal with an engineering problem involving flows: Identify and understand the different physics involved To pose the hypotheses and define the models according to the problem (desired precision, scale of observation, ...) Implement numerical and/or analytical tools to solve these models.

    Links between course units:

    This major allows us to start from the physics of simple flows and then to apply the different physics that can be added according to the application cases as well as the associated modeling and simulation tools.

    • UP1 Fundamentals is divided into three sub-parts. First an introduction to Fluid Physics, then to the different scales of observation and modeling. Finally, the last part is an introduction to numerical simulation methods in fluid mechanics.
    • The UP2 presents complex flows which are divided into three subtopics: turbulent flows, reactive flows, fluid-structure interaction.
    • UP3 is dedicated to multiphase flows. It is also declined in three parts: liquid-gas flows, fluid-solid flows, dry granular flows.
    • Finally, UP4 is a conference cycle. Researchers or engineers from industry or academia come to present an application case or a particular numerical method.

    Orientations / Associations with other courses:

    The association of this major with the different pedagogical groups makes it possible to build profiles corresponding to different courses:

    Course Processes :

    + Major Energy Process + Societal Challenge Energy Transition

    + Major Energy Process + Societal ChallengeAI

    Aeronautic course :

    +Major Materials Science + Societal Challenge Eco-Design

    +Mechanics Major + Societal Challenge Eco-Design

    Health Course :

    + Major Biomedical Engineering + Societal Challenge Personalised Medicine and Healthcare

    + Major Materials + Societal Challenge Personalised Medicine and Healthcare

    + Major Mechanics + Societal Challenge Personalised Medicine and Healthcare

    + Major Biomedical Engineering  + Societal Challenge AI

    Environment course :

    + Major Industrial and Territorial Environments + Societal Challenge Energy Transition

    + Major Industrial and Territorial Environments + Societal Challenge AI

    Key words:

    Computational Fluid Dynamics (CFD) Turbulent flow Fluid Structure Interaction (FSI) reactive flow multiphase flow