Correlation of rates of tritium migration through porous concrete

多孔質コンクリートとトリチウム移行速度の相関関係

深田智*; 片山一成*; 竹石敏治*; 枝尾祐希; 河村繕範; 林巧; 山西敏彦

Fukada, Satoshi*; Katayama, Kazunari*; Takeishi, Toshiharu*; Edao, Yuki; Kawamura, Yoshinori; Hayashi, Takumi; Yamanishi, Toshihiko

What affects tritium migration through porous concrete walls coated with a hydrophobic paint is reviewed from the viewpoint of tritium safety. Being taken into consideration of multi-structural concrete composed of aggregates, sand, water and cement which contents are CaO, SiO $_{2}$ , Al $_{2}$ O $_{3}$ , Fe $_{2}$ O $_{3}$ , MgO, CaSO $_{4}$ and so on, tritium path is discussed in terms of the HTO diffusivity and adsorption coeffcient on porous walls. Measures to predict rates of tritium leak from laboratory walls to the environment and residual tritium amounts in concrete are estimated based on previous data. Three cases of accidental or chronic tritium release to laboratory air are discussed using the diffusion-adsorption model.

使用言語	:	English
掲載資料名	:	Fusion Science and Technology
巻	:	67
号	:	2
ページ数	:	p.99 - 102
発行年月	:	2015/03
発表会議名	:	10th International Conference on Tritium Science and Technology (TRITIUM 2013)
開催年月	:	2013/10
開催都市	:	Nice
開催国	:	France
キーワード	:	no keyword

特許データ	:
PDF	:

論文URL	:	https://doi.org/10.13182/FST14-T25
研究データの公開先DOI	:
使用施設	:	TPL(トリチウムプロセス研究棟)
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	:	九州大学

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™	:	パーセンタイル：0.01 分野：Nuclear Science & Technology
Altmetrics	:

登録番号 : BB20142972
抄録集掲載番号 : 43000679
論文投稿番号 : 15778

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