First freezing experiments with a molten mixture of boron carbide and stainless steel in core disruptive accidents of sodium-cooled fast reactors

Emura, Yuki; Matsuba, Kenichi; Kikuchi, Shin; Yamano, Hidemasa

Assuming the CDA of SFRs, the eutectic melting between B $_{4}$ C as a control rod material and stainless steel (SS) as a structural material could occur below their melting points. After that, the mixture produced by eutectic melting between B $_{4}$ C and SS (B $_{4}$ C-SS mixture) would relocate inside or outside of the original core region. From the viewpoint of core reactivity changes, the relocation behavior of B $_{4}$ C-SS mixture induced by its melting/freezing behavior, is one of the key elements to evaluate the CDA consequences. Many experimental studies on freezing behavior using core materials and its simulants, including molten UO $_{2}$ , SS, tin, wood's metal have been reported in the past. Based on these experimental findings, the freezing/blockage model for the severe accident simulation code was established and discussed through analyses of freezing process. Specifically, it has been considered that the experimental correlation of melt-penetration length was a key indicator to quantitatively describe freezing behavior. However, there was no experimental data for the freezing behavior of actual B $_{4}$ C-SS mixture. Therefore, the freezing experiments of B $_{4}$ C-SS mixture were conducted to investigate the freezing and blockage behavior inside a flow path such as fuel pin bundle. In the freezing experiments, B $_{4}$ C powder and SS block were heated up to around 1,750 K using a graphite heating furnace, then B $_{4}$ C-SS mixture flowed down into an SS pipe for cooling below 750 K. The experimental results showed that the B $_{4}$ C-SS mixture solidified and resulted in the blockage in the SS pipe with 4 mm or 6.7 mm in inner diameter, respectively. Furthermore, the observations for cross section of SS pipe suggested that the B $_{4}$ C-SS mixture penetrated deeper than molten SS. This difference is considered to be influenced by decrease of the melting point.

発表言語	:	English
掲載資料名	:	Proceedings of 13th Korea-Japan Symposium on Nuclear Thermal Hydraulics and Safety (NTHAS13) (Internet)
巻	:
号	:
ページ数	:	8 Pages
発行年月	:	2024/11
発表会議名	:	13th Korea-Japan Symposium on Nuclear Thermal Hydraulics and Safety (NTHAS13)
開催年月	:	2024/11
開催都市	:	Seoul
開催国	:	Korea
キーワード	:	Sodium-cooled fast reactor; Core disruptive accident; Boron carbide; Stainless steel; Eutectic reaction

特許データ	:
PDF	:

論文URL	:
研究データの公開先DOI	:	本成果にかかわる研究データのリンクです。
使用施設	:	高速炉安全性試験施設
広報プレスリリース	:
論文解説記事 (成果普及情報誌)	:
受委託・共同研究相手機関	:	経済産業省

Access	:	- Accesses
Web of Science® Times Cited Count	:	被引用回数：評価・統計等のため最新の被引用回数を確認したい場合は、直接Web of Science®をご確認ください。 http://www.webofknowledge.com/wos
InCites™	:
Altmetrics	:

登録番号 : BB20241241
抄録集掲載番号 : 53000373
論文投稿番号 : 29169

[CLARIVATE ANALYTICS], [WEB OF SCIENCE], [HIGHLY CITED PAPER & CUP LOGO] and [HOT PAPER & FIRE LOGO] are trademarks of Clarivate Analytics, and/or its affiliated company or companies, and used herein by permission and/or license.