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FMA-006
Aerodynamics - 2021

Introduction to aerodynamics

OBJECTIVE :

This training provides participants with the basics for:

  • Understand the physical phenomena at the origin of the aerodynamic forces
  • Appropriate the specific vocabulary of aerodynamics
  • Discover the problems of predictive models
  • Confer with aerodynamic specialists in their professional environment

COURSE DURATION AND TIMETABLE :

The course lasts 4.5 days (30 hours) including:

  • 5 half days courses (15h)
  • 4 half days practical activities in wind tunnels (14h)
  • Round table (1h)

GENERAL APPROACH :

Fundamental concepts of Aerodynamics and theoretical models for quantitative aerodynamic analysis are formally introduced in the morning classrooms. The afternoons are dedicated to practical demonstrations and visualisations in wind tunnels.

These complementary approaches are organised to provide the trainees an overview of the physical phenomena governing aerodynamics.

PREREQUISITE :

Level: Basic

Mathematics, physics and mechanics, bachelor level

Some general basic knowledge in fluid mechanics is desirable but not essential.

COURSE DIRECTOR(S) :

Allan BONNET:
Professor, PhD, ISAE-SUPAERO

Valerie FERRAND:
Assistant Professor, SUPAERO, PhD, ISAE-SUPAERO.

CONTENT :

  • Aerodynamics versus other aeronautics domains such as flight dynamics, structure and propulsion
  • Aerodynamics forces
    • Lift and drag: pressure and viscosity effects
    • Dimensional analysis and similitude parameters
  • 2D incompressible flows
    • Pressure distribution
    • Measurements around an airfoil
  • Mach number effects
    • Subsonic, transonic, supersonic regimes: shock waves
    • Supersonic nozzles
    • Trans and supersonic airfoils: the wave drag
  • Introduction to measurement techniques in aerodynamics
  • 2D viscous flows
    • Laminar and turbulent boundary layers
    • Friction drag, base pressure drag
    • Boundary layer separation, airfoil stall
  • 3D flows
    • Induced drag, vortex lift
    • Aerodynamic forces on a complete aircraft: the polar curve
    • Slender bodies
  • Overview of theoretical models used in fluids mechanics
  • A basic numerical application case: computation of a 2D inviscid incompressible flow by panel method

WHEN AND WHERE :

Scheduled in French:

TOULOUSE: 20 to 24 September 2021

 

For the English realization, please, consult us.

COURSE FEES :

€2,690 excluding tax (20% VAT)

See general terms

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