Rotors dynamic in mechanical engineering
Goals
The purpose is to acquire knowledge about rotating machines design. Application domains are turbojet engine dynamics, shaft dynamics, micropumps, electrical turbines... Notions seen in UE MSS and GM are extended: technological, modelling and experimental knowledge are given to nderstand dynamic aspects of products by Safran - Snecma, Safran - Turbomeca, GE, Siemens, Alstom Power, Rolls-Royce, EDF, Pratt&Whitney...
Programme
Lesson = exercices
- rotating machine design cycle, properties and tools
- modelling monshaft and multishaft rotors
- bladed disks modelling
- bearings phenomenology Lab
- FE modelling of a bladed disk, a rotor shaft.
Sustainable development
Sustainable Development Goals
DD&RS level 1
Activity contextualised through environmentally sustainable development and social responsibility and/or supported by examples, exercises, applications.
Programme elements related to sustainable development goals
Turbomachinery is at the heart of energy production (wind turbines, turbines) and of transportation, especially aerial (jet engines).
Assessment method
Final exam (50%), presentation on a research paper (50%)
Bibliography
- M. Lalanne, G. Ferraris, Rotordynamics Prediction in Engineering., John Wiley and Sons, 1998.0
- D. W. Childs, Turbomachinery rotordynamics phenomena, modelling and analysis, John Wiley and Sons, 1993.0
- F. F. Ehrich, Handbook of rotor dynamics, Krieger Publishing company, 1999.0
Code
Responsibles
- Laurent BLANC
- Fabrice THOUVEREZ