Module catalogue 2023/2024
| NUCTHERMO | Thermodynamique appliquee* | Master's Degree in Nuclear Engineering | S5 | ||||||
|---|---|---|---|---|---|---|---|---|---|
| Lessons : 16 h | TD : 9 h | TP : 0 h | Project : 0 h | Total : 25 h | |||||
| Co-ordinator : Jean-Luc Lecouey | |||||||||
| Prerequisite | |
|---|---|
| Basics of Thermodynamics | |
| Course Objectives | |
| Acqurie basic knowledge on Thermodynamics applied to real machines | |
| Syllabus | |
| Basics of Thermodynamics Actuel fluids : phase transitions, thermodynamical diagrammes Open systems : 1st and 2nd principles - Examples - Isentropic efficiency of compression and expansion Thermodynamical cycles ; efficiency, performance, exergy, example of exergetic analysis, cycles with phase transition (Rankine, Hirn, optimization), gaz cycles without phase transition (Brayton, etc.), combined cycles |
|
| Practical work (TD or TP) | |
| Study of various realistic machines | |
| Acquired skills | |
| Sizing of various devices used in a thermodynamical machine Energetic and exergetic analyses |
|
| Bibliography | |
| Thermodynamique de l'ingénieur, O. Cleynen, Framabook Aide-mémoire de Thermodynamique de l'ingénieur, F. Meunier, Dunod Thermodynamique et énergétique, L. Borel et D. Favrat, Presses Pol. et Univ. Romandes |
© 2024 - ENSICAEN ( Legal Notices - Credits )