Uncertainty quantification of $^{237}$ Np, $^{241}$ Am, and $^{243}$ Am reaction rates in highly enriched uranium fuel cores at Kyoto University Critical Assembly

Pyeon, C. H.*; Oizumi, Akito ; Katano, Ryota ; Fukushima, Masahiro

Experimental analyses of neptunium-237 ( $^{237}$ Np), americium-241 ( $^{241}$ Am), and $^{243}$ Am fission and $^{237}$ Np capture reaction rates are conducted by the Serpent 2 code together with ENDF/B-VIII.0 and JENDL-5, using experimental data at neutron spectra of thermal and intermediate regions obtained in the solid-moderated and solid-reflected cores with highly-enriched uranium fuel at the Kyoto University Critical Assembly. Also, uncertainty quantification of fission and capture reaction rate ratios of test samples of $^{237}$ Np, $^{241}$ Am and $^{243}$ Am with reference samples of uranium-235 ( $^{235}$ U) and gold-197 ( $^{197}$ Au) are evaluated by the MARBLE code system. In terms of fission reaction rate ratios of $^{237}$ Np/ $^{235}$ U, $^{241}$ Am/ $^{235}$ U and $^{243}$ Am/ $^{235}$ U, a comparison between experiments and Serpent 2 calculations shows an accuracy about 5, 15 and 10%, respectively, together with ENDF/B-VIII.0 and JENDL-5. For capture reaction rate ratios of $^{237}$ Np/ $^{197}$ Au, Serpent 2 calculations reveal a fairly good accuracy at the thermal neutron spectrum. The total uncertainties of $^{237}$ Np/ $^{235}$ U, $^{241}$ Am/ $^{235}$ U and $^{243}$ Am/ $^{235}$ U fission reaction rate ratios by MARBLE with the covariance data of ENDF/B-VIII.0 and JENDL-5 are found to be about 4% at most in all cores, except for about 8% of $^{243}$ Am/ $^{235}$ U with ENDF/B-VIII.0 at the intermediate neutron spectrum.

Language	:	English
Journal	:	Nuclear Science and Engineering
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Pages	:	16 Pages
Publication Year/Month	:	2024/00
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Paper URL	:	https://doi.org/10.1080/00295639.2024.2380624
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Keywords	:	minor actinide; reaction rate ratio; HEU fuel; KUCA; Serpent 2
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Registration No. : AA20240437
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Uncertainty quantification of Np, Am, and Am reaction rates in highly enriched uranium fuel cores at Kyoto University Critical Assembly

Uncertainty quantification of $^{237}$ Np, $^{241}$ Am, and $^{243}$ Am reaction rates in highly enriched uranium fuel cores at Kyoto University Critical Assembly