Teacher(s)
Language
English
> French-friendly
> French-friendly
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 |
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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)
Other information
Note on the use of generative artificial intelligence:
- The use of generative AI is tolerated, but its use must be thoughtful, critical and ethical.
- The student is required to systematically indicate all parts in which AIs have been used, e.g. in footnotes, specifying whether the AI was used to search for information, to write or correct the text, or to generate computer code. Sources of information must be systematically cited in accordance with bibliographic referencing standards. Students remain responsible for the content of their work, regardless of the sources used.
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
