Implementation of ideal cascade model for uranium enrichment to nuclear fuel cycle simulator

阿部 拓海; 鈴木 大河*; 岡村 知拓*; 中瀬 正彦*

Annals of Nuclear Energy, 232, p.112224_1 - 112224_7, 2026/07

https://doi.org/10.1016/j.anucene.2026.112224

Reprocessed uranium is important for sustainable nuclear fuel use. It contains isotopes such as U-232, U-234, and U-236, which influence enrichment and later nuclear fuel cycle steps. To evaluate these effects, nuclear fuel cycle simulators require cascade models capable of handling multi-isotopic uranium. In this study, an ideal cascade model based on the matched abundance ratio cascade was implemented in a nuclear fuel cycle simulator NMB4, developed by the Institute of Science Tokyo and Japan Atomic Energy Agency. A three-component approximation was introduced to simplify calculations. Validation against numerical solutions and experimental data showed good agreement. Compared with the simple coefficient method, the ideal cascade model improved predictions for isotopes such as U-232 and U-236, which affect radiation, separative work, and actinide production. These results demonstrate that the new model enhances the accuracy of reprocessed uranium evaluation, aiding future fuel cycle planning.