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Takamatsu, Misao; Kawahara, Hirotaka; Ito, Hiromichi; Ushiki, Hiroshi; Suzuki, Nobuhiro; Sasaki, Jun; Ota, Katsu; Okuda, Eiji; Kobayashi, Tetsuhiko; Nagai, Akinori; et al.
Nihon Genshiryoku Gakkai Wabun Rombunshi, 15(1), p.32 - 42, 2016/03
In the experimental fast reactor Joyo, it was confirmed that the top of the irradiation test sub-assembly of "MARICO-2" (material testing rig with temperature control) had been broken and bent onto the in-vessel storage rack as an obstacle and had damaged the upper core structure (UCS). This paper describes the results of the in-vessel repair techniques for UCS replacement, which are developed in Joyo. UCS replacement was successfully completed in 2014. In-vessel repair techniques for sodium cooled fast reactors (SFRs) are important in confirming its safety and integrity. In order to secure the reliability of these techniques, it was necessary to demonstrate the performance under the actual reactor environment with high temperature, high radiation dose and remained sodium. The experience and knowledge gained in UCS replacement provides valuable insights into further improvements for In-vessel repair techniques in SFRs.
Ito, Hiromichi; Suzuki, Nobuhiro; Kobayashi, Tetsuhiko; Kawahara, Hirotaka; Nagai, Akinori; Sakao, Ryuta*; Murata, Chotaro*; Tanaka, Junya*; Matsusaka, Yasunori*; Tatsuno, Takahiro*
Proceedings of 2015 International Congress on Advances in Nuclear Power Plants (ICAPP 2015) (CD-ROM), p.1058 - 1067, 2015/05
In the experimental fast reactor Joyo (Sodium-cooled Fast Reactor (SFR)), it was confirmed that the top of the irradiation test sub-assembly had bent onto the in-vessel storage rack as an obstacle and had damaged the upper core structure (UCS). There is a risk of deformation of the UCS and guide sleeve (GS) caused by interference between them unless inclination is controlled precisely. To mitigate the risk, special jack-up equipment for applying three-point suspension was developed. The existing damaged UCS (ed-UCS) jack-up test using the jack-up equipment was conducted on May 7, 2014. As a result of this test, it was confirmed that the ed-UCS could be successfully jacked-up to 1000 mm without consequent overload. The experience and knowledge gained in the ed-UCS jack-up test provides valuable insights and prospects not only for UCS replacement but also for further improving and verifying repair techniques in SFRs.
Ito, Hiromichi; Kawahara, Hirotaka; Takamatsu, Misao; Toyoshi, Akira*; Sakao, Ryuta*; Murata, Chotaro*
no journal, ,
no abstracts in English
Suzuki, Nobuhiro; Ito, Hiromichi; Sasaki, Jun; Okawa, Toshikatsu; Kawahara, Hirotaka; Kobayashi, Tetsuhiko; Sakao, Ryuta*; Murata, Chotaro*; Tanaka, Junya*; Matsusaka, Yasunori*; et al.
no journal, ,
no abstracts in English
高松 操; 川原 啓孝
今岡 健悟*; 長谷川 修*; 坂尾 龍太*; 原 正秀*
【課題】高速炉の遮蔽プラグの貫通スリーブに挿入固定されている炉心上部機構を、該遮蔽プラグから引き抜いて搬出し、新たな炉心上部機構を搬入して遮蔽プラグの貫通スリーブに挿入固定する交換作業を、確実に実施できるようにする。 【解決手段】高速炉遮蔽プラグの上方にガイド筒を設置し、該ガイド筒を通して炉心上部機構をジャッキアップ装置でジャッキアップすることにより遮蔽プラグの貫通スリーブから引き上げ、仮サポート部材により仮保持してジャッキアップ装置を撤去し、次いで遮蔽容器上部のワイヤ式揚重装置に切り替えて炉心上部機構を引き上げ遮蔽容器内に収容して保管場所へ搬出する。その後、仮蓋に装備されているナトリウム掻き落とし部材によって貫通スリーブに残っている固化したナトリウムを掻き落とし、キャスク上部に設置されているワイヤ式揚重装置によって新しい炉心上部機構を貫通スリーブに挿入する。