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炭化ホウ素制御棒材の共晶反応モデルを適用したナトリウム冷却高速炉の炉心損傷事故予備解析

Preliminary analysis of core disruptive accident in sodium-cooled fast reactor using eutectic reaction model of boron-carbide control-rod material

山野 秀将   ; 守田 幸路*

Yamano, Hidemasa; Morita, Koji*

我が国の先進大型ナトリウム冷却高速炉(SFR)の炉心損傷事故(CDA)における炭化ホウ素(B$$_{4}$$C)とステンレス鋼(SS)の共晶反応及び再配置挙動を模擬する必要がある。SFRのCDA解析のため、その挙動を模擬する物理モデルを開発し、シビアアクシデント解析コードSIMMER-IVに組み込んだ。本研究では、新規に開発した物理モデルを含むこのコードをSFRのCDA解析に適用した。この解析により、共晶反応モデルを組み込んだSIMMER-IVは、共晶反応及び溶融プールでの共晶溶融物の上方移動及び溶融炉心物質再配置による反応度過渡挙動を示すことができた。

It is necessary to simulate a eutectic melting reaction and relocation behavior of boron carbide (B4C) as a control rod material and stainless steel (SS) during a core disruptive accident (CDA) in an advanced large-scale sodium-cooled fast reactor (SFR) designed in Japan. A physical model simulating the eutectic reaction and relocation of the eutectic melt was developed to incorporate into the fast reactor severe accident analysis code SIMMER-IV for the CDA numerical analysis of SFRs. This study applied the SIMMER-IV code with the newly developed model to the CDA analysis of the SFR. This analysis indicated that the SIMMER-IV code using the eutectic reaction model has successfully simulated the eutectic reaction and the upward motion of the eutectic melt in the molten core pool as well as the reactivity transient behavior caused by the molten core material relocation.

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