ITER真空容器におけるき裂と水リーク量の相関ならびにトカマク型核融合固有の安全性評価(NP3 新型炉技術)

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概要

• 論文の詳細を見る

• A small water leak can cause a plasma disruption in a tokamak-type fusion machine. This plasma disruption will induce electromagnetic (EM) force acting in the vacuum vessel that is a physical barrier of tritium and activated dust. If the VV can sustain an unstable fracture by the EM force, the structural safety will be assured and the inherent safety will be demonstrated. Therefore, a new analytical model to evaluate the through crack-and leak rate of cooing water is proposed, with verification by experimental leak measurements. Based on the analysis, the critical crack length to terminate plasma in ITER is evaluated as about 2 mm. On the other hand, the critical crack length for unstable fracture is obtained as about 400 mm. It is concluded that EM forces induced by the small leak to terminate plasma will not cause unstable fracture of the VV; thus the inherent safety is demonstrated.

• 社団法人日本機械学会の論文
• 2004-06-22

著者

• 澁井 正直

  東芝

• 中平 昌隆

  原研那珂

• 中平 昌隆

  原研

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• ITER真空容器におけるき裂と水リーク量の相関ならびにトカマク型核融合固有の安全性評価(NP3 新型炉技術)
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