Informations générales
Number of hours
- Lectures 5.0
- Projects -
- Tutorials 5.0
- Internship -
- Laboratory works 50.0
- Written tests -
ECTSECTS
5.0
Goal(s)
To prepare students for current and future nuclear issues:
fuel cycle (especially nuclear waste management),
new reactors (EPR reactor, on-board nuclear reactors, breeder reactors / Gen IV reactors, ITER),
Dismantlement / decommissioning of nuclear plants and nuclear power stations,
Advanced digital supervision (ADACS Software).
Responsible(s)
Content(s)
Processes involved in upstream / downstream fuel cycle (extraction, PUREX vitrification ...), Modern techniques developed in decommissioning. Digital learning sessions on ADACS supervision software
Series of lectures on future nuclear reactors (embedded reactor EPR MSFR, ITER) and learning groups formed around Gen III or IV reactors
At the end of this course, students/trainees will be able to:
-analyze and model a system monitoring problem and identify appropriate solution approaches to implement
-design a solution to a system monitoring problem, following a set of specifications
-select, tune, and implement a fault detection algorithm in the context of system monitoring
-develop a fault detection algorithm adapted to a specific system monitoring problem
Basic background in mechanics, nuclear physics, nuclear safety
State space representation of dynamical systems
Test
Single session - NO RETAKE
Continous assessment (CC1) : 2 BE assessments (one report on the supervision section supervised by S. Herrero and S. Ritter 40% plus 4 reports and an oral assessment on the diagnosis section supervised by S. Charbonnier and C. Berenguer 60%) / 2 Lab assessments
Calendar
The course exists in the following branches:
- Curriculum - Master's Degree in Engineering IEN - Semester 9
Additional Information
Course ID : 5EU9SDI9
Course language(s): 
You can find this course among all other courses.