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Development of 3-D detailed FBR core calculation method based on method of characteristics

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竹田 敏一*; 今井 秀樹*; 北田 孝典*; 西 裕士; 石橋 淳一; 北野 彰洋

Takeda, Toshikazu*; Imai, Hideki*; Kitada, Takanori*; Nishi, Hiroshi; Ishibashi, Junichi; Kitano, Akihiro

燃料集合体の非均質性を考慮した詳細3次元輸送計算手法の開発を進めている。3次元化は、2次元キャラクタリスティクス法(MOC法)とノード法輸送計算にて行われる。本検討では、MOC法での反応率保存法にて均質実効断面積を作成し、3次元輸送計算を行った。モンテカルロ法との比較により、微小領域での反応率を精度良く計算できることを確認した。

A new detailed 3-D transport calculation method taking into account the heterogeneity of fuel assemblies has been developed in hexagonal-z geometry by combining the method of characteristics and the nodal transport method. From the nodal transport calculation which uses assembly homogenized cross sections, the axial leakage is calculated, and it is used for the MOC calculation which treats the heterogeneity of fuel assemblies. Series of homogeneous MOC calculations which use assembly homogeneous cross sections are carried out of obtain effective cross sections, which preserve assembly reaction rates. This effective cross sections are again used in the 3-D nodal transport calculations. The numerical calculations have been performed to verify 3-D radial calculations of FBR assemblies and partial core calculations. Results are compared with the reference Monte-Carlo calculations. A good agreement has been achieved. It is shown that the present method has an advantage in calculating reaction tates in small region.

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