Issue |
EPJ Nuclear Sci. Technol.
Volume 10, 2024
|
|
---|---|---|
Article Number | 18 | |
Number of page(s) | 13 | |
DOI | https://doi.org/10.1051/epjn/2024019 | |
Published online | 28 November 2024 |
https://doi.org/10.1051/epjn/2024019
Regular Article
Generation of particle self-shielded neutron cross-sections for the Monte-Carlo code TRIPOLI-4®
1
CEA, DES, IRESNE, DER, Cadarache, F-13108 Saint Paul Les Durance, France
2
EC-JRC-Geel, B-2440 Geel, Belgium
* e-mail: gilles.noguere@cea.fr
Received:
9
June
2024
Received in final form:
8
September
2024
Accepted:
16
October
2024
Published online: 28 November 2024
Self-shielding effects of micrometric particles randomly distributed in nuclear materials were the subject of extensive studies. These effects are known as a double-heterogeneity problem due to “microscopic” heterogeneities, involving the decrease of the neutron flux inside the particles, and “macroscopic” heterogeneities, affecting the neutron flux distribution over the entire volume containing those particles. The present study aims to take advantage of the capabilities of the GELINA facility (JRC-Geel, Belgium) in terms of non-destructive analysis of materials to validate experimentally any models developed to solve the double heterogeneity problem. In order to complement past experiments carried out at the GELINA facility, new transmission experiments were carried out on long cylindrical samples containing microspheres of Gd2O3 with diameters of 195 and 380 μm dispersed in UO2 pellets. The analysis of the experimental transmission spectra with the resonance shape analysis code REFIT and Monte-Carlo neutron transport code TRIPOLI-4® demonstrates that the particle self-shielding model proposed by Doub can reproduce the huge attenuation of the neutron absorption in the Gd resonances by reducing significantly the computational cost of Monte-Carlo simulations.
© G. Noguere et al., Published by EDP Sciences, 2024
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