Minor Actinide Transmutation in BWR Cores for Multi-recycle Operation with Less Minor Actinide-to-Fissile Plutonium Amount Ratio

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概要

• 論文の詳細を見る

• Minor actinide (MA) transmutation performances were evaluated for BWR cores with mixed oxide (MOX) fuels of various hydrogen-to-heavy metal atom number ratios (H/HM) to decrease the work for high-level radioactive wastes (HLW) management. One effective approach to increase the MA transmutation ratio is a multi-recycle core of MOX fuel with MA. The decrease of the MA-to-fissile Plutonium (Puf) amount ratio makes it possible to recycle MA without additional plutonium (Pu) obtained from reprocessing of LWR fuel. For this purpose, a T-ratio, which is the MA-to-Puf amount ratio change during burnup, of less than unity is required, and H/HM must be less than 3 when MA enrichment is more than 2wt%. For multi-recycle cores with the H/HM of 3 and the initial MA enrichment of 5wt%, more than 50% of MA load initially can be transmuted by the third recycle.

• 社団法人 日本原子力学会の論文
• 1995-10-25

著者

• Aoyama Motoo

  Power & Industrial Systems R & D Division Hitachi Ltd.

• Yamashita Jun'ichi

  Hitachi Works Hitachi Ltd.

• MASUMI Ryoji

  Power & Industrial Systems R & D Division, Hitachi Ltd.

• Masumi Ryoji

  Power & Industrial Systems R & D Division Hitachi Ltd.

関連論文

• A New Direct Calculation Method of Response Matrices Using a Monte Carlo Calculation
• Minor Actinide Transmutation in BWR Cores for Multi-recycle Operation with Less Minor Actinide-to-Fissile Plutonium Amount Ratio
• Improvement of Monte Carlo Lattice Burnup Calculation Performance with the Correlated Sampling Method

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