Effect of Pu-Rich Agglomerate in MOX Fuel on a Lattice Calculation
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概要
- 論文の詳細を見る
The effect of Pu-rich agglomerates in U-Pu mixed oxide (MOX) fuel on a lattice calculation has been demonstrated. The Pu-rich agglomerate parameters are defined based on the measurement data of MIMAS-MOX and the focus is on the highly enriched MOX fuel in accordance with increased burnup resulting in a higher volume fraction of the Pu-rich agglomerates. The lattice calculations with a heterogeneous fuel model and a homogeneous fuel model are performed simulating the PWR 17×17 fuel assembly. The heterogeneous model individually treats the Pu-rich agglomerate and U-Pu matrix, whereas the homogeneous model homogenizes the compositions within the fuel pellet. A continuous-energy Monte Carlo burnup code, MVP-BURN, is used for burnup calculations up to 70 GWd/t. A statistical geometry model is applied in modeling a large number of Pu-rich agglomerates assuming that they are distributed randomly within the MOX fuel pellet. The calculated nuclear characteristics include k-inf, Pu isotopic compositions, power density and burnup of the Pu-rich agglomerates, as well as the pellet-averaged Pu compositions as a function of burnup. It is shown that the effect of Pu-rich agglomerates on the lattice calculation is negligibly small.
- 一般社団法人 日本原子力学会の論文
- 2007-10-25
著者
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KAWASHIMA Katsuyuki
Japan Nuclear Energy Safety Organization
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Yamamoto Toru
Japan Aerospace Exploration Agency
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Yamamoto Toru
Japan Nuclear Energy Safety Organization Tokyu Reit Toranomon Bldg.
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NAMEKAWA Masakazu
Nippon Advanced Information Service
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KAWASHIMA Katsuyuki
Japan Atomic Energy Agency
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