Communication Dans Un Congrès Année : 2024

Sensitivity analysis of a flow redistribution model for a multidimensional and multifidelity simulation of fuel assembly bow in a pressurized water reactor

Résumé

In the core of nuclear reactors, fluid-structure interaction and intense irradiation lead to progressive deformation of fuel assemblies. When this deformation is significant, it can lead to additional costs and longer fuel unloading and reloading operations. Therefore, it is preferable to adopt a fuel management that avoids excessive deformation and interactions between fuel assemblies. However, the prediction of deformation and interactions between fuel assemblies is uncertain. Uncertainties affect neutronics, thermohydraulics and thermomechanics parameters. Indeed, the initial uncertainties are propagated over several successive power cycles of twelve months each through the coupling of non-linear, nested and multidimensional thermal-hydraulic and thermomechanical simulations. In this article, we set out to study the hydraulic contribution and quantify the associated uncertainty. To achieve this objective, we develop a multi-stage approach to carry out an initial sensitivity analysis, highlighting the most influential parameters in the hydraulic model. By optimally adjusting these parameters, we aim to obtain a more accurate description of the flow redistribution phenomenon in the reactor core.The aim of the sensitivity analysis presented in this article is to construct an accurate and suitable surrogate model that represents the redistribution model in the core. This surrogate model will then be coupled with the thermomechanical model to quantify the final uncertainty in the simulation of fuel assembly deformation within a pressurised water reactor. This approach will provide a better understanding of the interactions between hydraulic and thermomechanical phenomena, thereby improving the reliability and accuracy of the simulation results.

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Dates et versions

cea-04953931 , version 1 (18-02-2025)

Identifiants

  • HAL Id : cea-04953931 , version 1

Citer

Ali Abboud, Stanislas de Lambert, Josselin Garnier, Bertrand Leturcq. Sensitivity analysis of a flow redistribution model for a multidimensional and multifidelity simulation of fuel assembly bow in a pressurized water reactor. Best Estimate Plus Uncertainty (BEPU): Status and perspectives, May 2024, Lucca, Italy. pp.272. ⟨cea-04953931⟩
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