Pagora rubrique Formation 2022

Fluid mechanics - 3FME1022

  • Number of hours

    • Lectures 12.0
    • Projects -
    • Tutorials 6.0
    • Internship -
    • Laboratory works -

    ECTS

    ECTS 17.0

Goal(s)

Learning outcomes :

  • To know the equations of conservation of a perfect fluid: Mass ; Mechanical energy (Bernoulli) ; Quantity of motion (Euler)
  • To set about production of hydraulic balance sheets
  • To understand the conversion of fluid energy into mechanical energy, and the conservation of a perfect fluid based on fluid statics (internal and motive pressure of a fluid; pressure forces on an object; pressure measurements) and fluid properties (including viscosity)
  • To master the use of Bernoulli's law and the concepts of converting the mechanical energy of a fluid.
  • To know different devices for measuring pressures, flows and speeds.
  • To calculate the pressure drops in a circuit.
  • To choose an industrial pump.
  • To know the basics of dynamics and flows around submerged objects (flow around solid bodies: drag force; terminal fall velocity; dimensionless analysis, friction coefficient)

Responsible(s)

Evelyne MAURET

Content(s)

Course on basic hydraulics, from theoretical to practical aspects. The main objectives are to understand

1.Fluid statics
2. Equations of conservation for a perfect fluid: mass, mechanical energy(Bernoulli's equation), momentum (Euler's equations).
3. Application of the Bernoulli's equation and of the first Euler's theorem
4. Fluid dynamics
5. Hydraulic circuits
6. Pumps
7. Flow around objects
8. Informations TP : rappels et compléments.

Prerequisites

Basic knwoledge in mechanics of perfect fluids and fluid statix. Fluid properties (viscosity).

Test

Calendar

The course exists in the following branches:

  • Curriculum - Pagora Engineer - Student - Semester 6
see the course schedule for 2022-2023

Additional Information

Course ID : 3FME1022
Course language(s): FR

You can find this course among all other courses.

Bibliography

CANDEL S. Mécanique des fluides. Paris : Dunod, 2001
COMOLET R. Mécanique expérimentale des fluides. Tomes 1, 2 et 3. Paris : Dunod
MIDOUX N. Mécanique et rhéologie des fluides en génie chimique.Paris : New York : Tec & Doc Lavoisier, 1993