New correlations for focusing effect evaluation of the light metal layer in the lower head of a nuclear reactor in case of severe accident - Institut de Recherche sur les Phenomenes Hors Equilibre
Article Dans Une Revue Nuclear Engineering and Design Année : 2024

New correlations for focusing effect evaluation of the light metal layer in the lower head of a nuclear reactor in case of severe accident

Résumé

In case of a severe accident (SA) in a nuclear reactor, the core heats up and materials melt and relocate to the lower head of the vessel. In such configuration, stratification occurs between the oxide and metal phases present in the melt. When the metal phase is lighter than the oxide phase, the maximum heat flux applied to the vessel wall is concentrated at the location of this top metal layer, creating the so-called “focusing effect”. The modelling of the focusing effect is essential for SA codes to properly evaluate the vessel failure time or to demonstrate the vessel integrity, when In Vessel Retention (IVR) strategy is implemented. However, existing correlations used in SA codes for focusing effect modelling have some limitations: if the thickness of the metal layer becomes very small, they predict an extremely high heat flux. Moreover, they were validated with tests using water, whereas the Prandtl number was found to play a significant role in this heat transfer. In this paper, the focusing effect is studied based on 3D Direct Numerical Simulations (DNS) of a cylindrical metal layer, covering all possible metal layer characteristics in terms of geometry and boundary conditions, especially for its top surface where the intensity of radiative heat transfer may vary. The analysis of the fluid behavior and the quantitative results obtained allow to derive new correlations and a new model based on the radial profile of the mean temperature of the system and on the radial profile at the top surface. Results at reactor scale confirm the overestimation of existing 0D model used in SA codes for a thin metal layer and highlight the relevance of the proposed model for focusing effect evaluation during transient situations.
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Dates et versions

hal-04745834 , version 1 (21-10-2024)

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F. Rein, Florian Fichot, Laure Carénini, Michael Le Bars, B. Favier. New correlations for focusing effect evaluation of the light metal layer in the lower head of a nuclear reactor in case of severe accident. Nuclear Engineering and Design, 2024, 428, pp.113540. ⟨10.1016/j.nucengdes.2024.113540⟩. ⟨hal-04745834⟩
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