5.00 credits
40.0 h + 7.5 h
Q1
Teacher(s)
Bartosiewicz Yann;
Language
English
Main themes
- Reactor heat generation
- Transport equations (single-phase & two-phase flow)
- Thermal analysis of fuel elements
- (Single-phase fluid mechanics and heat transfer)'usually already known
- Two-phase flow dynamics
- Two-phase heat transfer
- Single heated channel; steady state analysis
- Single heated channel; transient analysis
- Flow loops
- Utilisation of established codes and introduction to advanced topics (modelling and thermalhydraulics for GEN4 reactors)
Learning outcomes
At the end of this learning unit, the student is able to : | |
| 1 |
|
Content
- Lect. 1: Thermal design principles
- Lect. 2: Reactor energy distribution
- Lect. 3: Transport eqns. For 1-phase flow: Reminders/summary
- Lect. 4: Tranport eqns. For 2-phase flows:basic formulation
- Lect. 5: Tranport eqns. For 2-phase flows:equations
- Lect. 6: Thermodynamics, cycles: non-flow and steady flow
- Lect. 7: Thermodynamics, cycles: non steady flow first law
- Lect. 8: Thermal analysis of fuel elements
- Lect. 9: 1-phase fluid mechanics/heat transfer: Reminders/summary
- Lect. 10: 2-phase fluid mechanics/pressure drops
- Lect. 11: 2-phase fluid mechanics/pressure drops
- Lect. 12: 2-phase heat transfer (pool boiling)
- Lect. 13: 2-phase heat transfer (flow boiling)
- Lect. 14: Single-heated channel: steady state analysis
Teaching methods
- 30h of ex catedra lectures
- 30h of partially-supervised personnal work (project)
- 16h of supervised exercice sessions (exercice sessions)
Courses taking place at SCK.CEN are condensed over a period of 2 intensive weeks of courses.
Evaluation methods
The evaluation is a combination of continuous and in-session exam.
The continuous part is a project (team of 2) where the students have to set up a simulation tools to calculate the pressure drop (plus temperature, quality profiles) in a boiling channel under different conditions. The exam is written (in english), and assess both theoretical and practical leaning outcomes. Thus this exam is split according a theoretical part (closed book) and a practical part (opened book)
The final mark is calculated as:
The continuous part is a project (team of 2) where the students have to set up a simulation tools to calculate the pressure drop (plus temperature, quality profiles) in a boiling channel under different conditions. The exam is written (in english), and assess both theoretical and practical leaning outcomes. Thus this exam is split according a theoretical part (closed book) and a practical part (opened book)
The final mark is calculated as:
- Project + pratical part of the exam (11/20)
- Exam (9/20)
Online resources
Bibliography
- Todreas, N.E. and Kazimi, M.S. Nuclear System I: Thermal Hydraulic Fundamentals, CRC Press, 2012.
- Todreas, N. E. and Kazimi, M.S. Nuclear Systems II: Elements of Thermal Hydraulic Design, Hemisphere Publishing Corp., New York, 1990.
- Todreas, N.E. and Kazimi, M.S. Nuclear System I: Thermal Hydraulic Fundamentals, CRC Press, 2012. Mandatory.
- Todreas, N. E. and Kazimi, M.S. Nuclear Systems II: Elements of Thermal Hydraulic Design, Hemisphere Publishing Corp., New York, 1990. Advised.
Teaching materials
- Todreas, N.E. and Kazimi, M.S. Nuclear System I: Thermal Hydraulic Fundamentals, CRC Press, 2012.
- Todreas, N. E. and Kazimi, M.S. Nuclear Systems II: Elements of Thermal Hydraulic Design, Hemisphere Publishing Corp., New York, 1990.
Faculty or entity
MECA
