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HTTR環状炉心の炉心解析モデルの検討

Assessment of calculation model for annular core on the HTTR

野尻 直喜; 半田 雄一*; 島川 聡司; 後藤 実; 金子 義彦*

Nojiri, Naoki; Handa, Yuichi*; Shimakawa, Satoshi; Goto, Minoru; Kaneko, Yoshihiko*

HTTRの環状炉心実験から過剰反応度の実験値と解析値のずれは最大で3%Dk/kに達することが明らかになった。このずれを改良するためにHTTR環状炉心のパラメータ解析を行った。炉心解析にはSRACコードシステムを用いた。解析の結果として、環状炉心の過剰反応度に以下のものが影響を与えることが明らかになった。(1)炉心拡散計算のメッシュ間隔,(2)燃料格子計算の黒鉛領域のメッシュ構造,(3)ブノアの非等方拡散係数。以前報告された有意に大きいずれは、改良した環状炉心モデルにより約1%Dk/kに減少した。

It was shown from the annular core experiment of the HTTR that the discrepancy of excess reactivity between experiment and analysis reached about 3 % Dk/k at maximum. Sensitivity analysis for the annular core of the HTTR was performed to improve the discrepancy. The SRAC code system was used for the core analysis. As the results of the analysis, it was found clearly that the multiplication factor of the annular core is affected by (1) mesh interval in the core diffusion calculation, (2) mesh structure of graphite region in fuel lattice cell and (3) the Benoist's anisotropic diffusion coefficients. The significantly large discrepancy previously reported was reduced down to about 1 % Dk/k by the revised annular core model.

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