Industrial Hydraulics

Données Générales
Programme Académique	General Engineering Program			Responsable(s) Module : MARCHESSE Yann
Type d'EC : Cours	Industrial Hydraulics (LIIAem08EHydInd)
TD : 6h00 Cours : 24h00 Travail personnel : 20h00 Durée totale: 50h00	Status	Periode Academic Semester	Langue d'enseignement : French

Objectifs Généraux
On completion of the course, the student is expected to be able to do the following: 1. Name the basic knowledge concerning the installation, the operating principle and the choice of rotodynamic pumps in a hydraulic network; 2. Modeling a hydraulic network (friction and minor losses, elevation rise); 3. Use the coefficients of the valves; 4. Identify the type of waterhammer (mass or wave) present in pipes, evaluate the magnitudes of pressure variations and propose adequate means to mitigate the transient effects.

Objectifs Généraux

On completion of the course, the student is expected to be able to do the following:

1. Name the basic knowledge concerning the installation, the operating principle and the choice of rotodynamic pumps in a hydraulic network;
2. Modeling a hydraulic network (friction and minor losses, elevation rise);
3. Use the coefficients of the valves;
4. Identify the type of waterhammer (mass or wave) present in pipes, evaluate the magnitudes of pressure variations and propose adequate means to mitigate the transient effects.

Contenu
- Hydraulic networks (friction and minor losses, altitude rise, pipes in parallel and / or in series), - Operating principle of rotodynamic pumps (generality, constitution, pump curves, pump coupling, operating point, specific speed, similarity, cavitation, adaptation of the operating point) ; - Control valve (types of valves, valve coefficients); - Transient phenomena in pipes (generalized equations of transient flows, waterhammers, means of protection).

Contenu

- Hydraulic networks (friction and minor losses, altitude rise, pipes in parallel and / or in series),
- Operating principle of rotodynamic pumps (generality, constitution, pump curves, pump coupling, operating point, specific speed, similarity, cavitation, adaptation of the operating point) ;
- Control valve (types of valves, valve coefficients);
- Transient phenomena in pipes (generalized equations of transient flows, waterhammers, means of protection).

Prérequis
Pre-requisites : fluid mechanics

Bibliographie
CANDEL S., (2001). Mécanique des Fluides, Dunod. COMOLET R. (2002). Mécanique expérimentale des Fluides tomes 1 et 2 - Dunod. MARCHESSE Y., course handout

Évaluation(s)
N°	Nature	Coefficient	Objectifs
1	Ability to solve a simple real configuration using theoretical aspects.	1	The written exam consists of a series of questions on the course followed by several exercises proposing a simple hydraulic configuration to study
2		1	Continuous Assessment