Uncertainty and sensitivity analysis of the thermo-hydraulic loop LSTF within the ATRIUM project H/F

Commissariat à l'Énergie Atomique

Job title:

Uncertainty and sensitivity analysis of the thermo-hydraulic loop LSTF within the ATRIUM project H/F

Company:

Commissariat à l’Énergie Atomique

Job description

Organisation The French Alternative Energies and Atomic Energy Commission (CEA) is a key player in research, development and innovation in four main areas :

  • defence and security,
  • nuclear energy (fission and fusion),
  • technological research for industry,
  • fundamental research in the physical sciences and life sciences.

Drawing on its widely acknowledged expertise, and thanks to its 16000 technicians, engineers, researchers and staff, the CEA actively participates in collaborative projects with a large number of academic and industrial partners.The CEA is established in ten centers spread throughout FranceReference 2024-33243Description de l’unitéThe internship work will be conducted at the Department of Thermal-hydraulics and Fluid dynamics (STMF – Service de Thermohydraulique et de Mécanique de Fluide) within the Energy Division (DES – Direction des Énergies). The department develops and qualifies the simulation tools for the design and the safety analysis of the French nuclear power systems, such as the system thermal-hydraulic code CATHARE. These studies are performed within the framework of internal CEA projects or in collaboration with several industrial partners (e.g. EDF, Framatome and TechnicAtome) and international partners.Position descriptionCategoryThermohydraulics and fluid mechanicsContractInternshipJob titleUncertainty and sensitivity analysis of the thermo-hydraulic loop LSTF within the ATRIUM project H/FSubjectThe internship consists in studying the impact of uncertainties on an accidental scenario in the LSTF thermal-hydraulic facility. In details, the candidate will:

  • Understand the physics of the experiment;
  • Improve its existing CATHARE modelling, if needed;
  • Perform propagations of uncertainties and sensitivity analyses to different physical models using appropriate statistical methods;
  • Comparing the impact of different statistical hypotheses/methodologies on the results
  • Present and discuss his/her work during international technical meetings and write a final report.

Contract duration (months)6Job descriptionThe proposed internship will be realized within the framework of an international OECD/NEA project, called ATRIUM (Application Tests for Realization of Inverse Uncertainty quantification and validation Methodologies in thermal-hydraulics): https://www.oecd-nea.org/jcms/pl_83562/application-tests-for-realisation-of-inverse-uncertainty-quantification-and-validation-methodologies-in-thermal-hydraulics-atrium.The thermal-hydraulic code CATHARE is the reference code for the safety analysis of French nuclear reactors. It is based on a set of six conservation equations (mass, momentum and energy for the liquid and vapor phase) complemented by appropriate closure laws. The validation of these semi-empirical laws and the associated uncertainty quantification is a fundamental issue. The validation is based on experiments at different scales covering the operating domain of nuclear reactors. In particular, the global validation of the code is carried out using the experimental data coming from reactor-scale thermal-hydraulic loops, also called Integral Effect Tests (IETs). These loops are representative of the primary and secondary circuits of nuclear reactors. Different scenarios can be reproduced to improve the understanding of the physical phenomena occurring during an accident.The internship consists in studying the impact of uncertainties on an accidental scenario in the LSTF IET facility. In details, the candidate will:

  • Understand the physics of the experiment;
  • Improve its existing CATHARE modelling, if needed;
  • Perform propagations of uncertainties and sensitivity analyses to different physical models using appropriate statistical methods;
  • Comparing the impact of different statistical hypotheses/methodologies on the results
  • Present and discuss his/her work during international technical meetings and write a final report.

Methods / MeansCATHAREApplicant ProfileThe candidate should have a good knowledge of fluid-dynamics/thermal-hydraulics, ideally applied to nuclear reactors. A basic knowledge of Linux, Excel and Python/Matlab is desired. A good knowledge of English is a must. French would be a plus.Position locationSiteSaclayJob locationFrance, Ile-de-France, Essonne (91)LocationGif-sur-YvetteCandidate criteriaPrepared diplomaBac+5 – Diplôme École d’ingénieursPhD opportunityNonRequesterPosition start date02/12/2024

Expected salary

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Essonne

Job date

Tue, 01 Oct 2024 05:24:16 GMT

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