Component
École Nationale Supérieure d'Électrotechnique d'Électronique
Objectives
- Presentation of classical methods of treatment and resolution of turbulent flows
- Introduction of the concept of turbulent viscosity and the associated assumptions and limitations
- Application to cases of canonical turbulent flow (jet, boundary layer ...)
- Phenomenological introduction of turbulent field statistics (multi-point time statistics) and aspects of dispersion and mixing by turbulent flows
- Opening on the different numerical simulation strategies of turbulent flows.
Description
- 9 courses
- 6 TD
- 2 TP computer
- 2 experimental labs
- 1 exam
Introduction to turbulent flow
1- Introduction
2- derivation of Reynolds equations
3- Free shear flows (jets, wakes, layer of mixtures)
4- Wall flows (boundary layers, pipes)
5- Turbulent mixing and natural convection
6- Structure of the turbulence
Pre-requisites
- Basis on Mechanics of continuous media and fluid mechanics (notion of constraints, Navier-Stokes equations)
- Concepts of statistics and signal processing (moment, correlation, spectrum, distribution function)