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International master MaNuEn > Courses Content

Common Core Courses
ECTS
hours
Fundamentals in Nuclear Energy
5
 
P1 : Fundamentals in Nuclear Physics and thermohydraulics

24
P2 : Fundamentals in Materials Sciences

28
P3 : General operation of nuclear reactors and thermal machine operation

4
A : General approach to Energy issues

10
A : Conferences about energy


Materials for nuclear reactors
7
68
B1 : Reactor design

10
B2 : Materials selection methods

10
B3 : Materials used in nuclear reactors

10
B4 : Design of primary circuits components

10
B5 : Fundamentals in water chemistry

8
B6 : Chemistry, transfer and thermohydraulics

20
Physics of irradiated materials
6
70
C10 : Introduction

2
C11 : Fundamental in modelling methods

10
C12 : Irradiation defects

12
C13 : Irradiation microstructures and dislocation

36
C14 : Interaction between radiations and living matter

10
Material ageing in a nuclear environment
7
64
C21 : Irradiation ageing

14
C22 : Fracture mechanics

14
C23 : Fundamentals in corrosion

16
C23 : Nuclear Corrosion

8
C25 : Laboratory Classes

12

Courses
ECTS
hours
OPTION PWR Components - Operation feedback in PWR
5
86
D1 : Fuel cladding and rod cluster control assembly

14
D2 : Pressure vessels and internals

18
D3 : Circuits and exchangers

10
D4 : Non destructive testing

10
D5 : Polymers and concrete (nuclear containement)

10
E1 : Back-End

10
E2 : Future reactors generations

14
OPTION Nuclear fuel CEA
Nuclear fuel : PWR, RNR and other reactors concepts
5
90
F1 : Nuclear fuel design

20
F2 : Fabrication and characterisation

20
F3 : Nuclear Fuel behaviour under irradiation

30
F4 : Nuclear Fuel cycle

20

mise à jour le 31 janvier 2012

Grenoble INP Institut d'ingénierie Univ. Grenoble Alpes