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Article Dans Une Revue (Data Paper) Nuclear Engineering and Design Année : 2023

A generalization of the CIRCE method for quantifying input model uncertainty in presence of several groups of experiments

Résumé

The semi-empirical nature of best-estimate models closing the balance equations of thermal-hydraulic (TH) system codes is well-known as a significant source of uncertainty for accuracy of output predictions. This uncertainty, called model uncertainty, is usually represented by multiplicative (log-)Gaussian variables whose estimation requires solving an inverse problem based on a set of adequately chosen real experiments. One method from the TH field, called CIRCE,2 addresses it. We present in the paper a generalization of this method to several groups of experiments each having their own properties, including different ranges for input conditions and different geometries. An individual (log-)Gaussian distribution is therefore estimated for each group in order to investigate whether the model uncertainty is homogeneous between the groups, or should depend on the group. To this end, a multi-group CIRCE is proposed where a variance parameter is estimated for each group jointly to a mean parameter common to all the groups to preserve the uniqueness of the best-estimate model. The ECME algorithm for Maximum Likelihood Estimation developed in Celeux et al. (2010) is extended to the latter context, then applied to relevant demonstration cases. Finally, it is tested on a practical case to assess the uncertainty of critical mass flow assuming two groups due to the difference of geometry between the experimental setups.
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Dates et versions

hal-04455994 , version 1 (11-04-2024)

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Guillaume Damblin, François Bachoc, Sandro Gazzo, Lucia Sargentini, Alberto Ghione. A generalization of the CIRCE method for quantifying input model uncertainty in presence of several groups of experiments. Nuclear Engineering and Design, 2023, 413, pp.112527. ⟨10.1016/j.nucengdes.2023.112527⟩. ⟨hal-04455994⟩
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