General Engineering Program
| General Data | ||||
|---|---|---|---|---|
| Academic program | General Engineering Program | Module Manager(s) :
MARCHESSE Yann |
||
| EC Type : Lectures | Industrial Hydraulics (LIIAem08EHydInd) | |||
|
Tutorials : 6h00 Lectures : 24h00 Individual work : 20h00 Total duration: 50h00 |
Status
|
Period
Semester 8 |
Teaching language :
French |
|
| General objectives |
|---|
| 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. |
| Content |
|---|
| - 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). |
| Corequis |
|---|
| 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 |
| Assessment(s) | |||
|---|---|---|---|
| N° | Nature | Coefficient | Observable objectives |
| 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 | |