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Studies on Sealing Performance of Clay Plug by the Tunnel Sealing Experiment

Published online by Cambridge University Press:  21 March 2011

S. Kawakami
Affiliation:
Japan Nuclear Cycle Development Institute Tokai, Naka, Ibaraki 319-1194, Japan
T. Fujita
Affiliation:
Japan Nuclear Cycle Development Institute Tokai, Naka, Ibaraki 319-1194, Japan
K. Masumoto
Affiliation:
Kajima Corporation Minato, Tokyo 107-8502, Japan
M. Yui
Affiliation:
Japan Nuclear Cycle Development Institute Tokai, Naka, Ibaraki 319-1194, Japan
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Abstract

To establish sealing performance suitable for geological environmental conditions of Japan, it is necessary to obtain basic data related for the sealing function through laboratory and in-situ experiments. These data are to be used for practical design and to establish the method for analysis of the sealing performance.

Japan Nuclear Cycle Development Institute (JNC) has joined the international project, the Tunnel Sealing Experiment (TSX), to demonstrate the sealing performance of full scale plugs in-situ, and to develop analytical method of the sealing performance of the plugs at Underground Research Laboratory (URL) of Atomic Energy of Canada Limited (AECL) in Canada [1]. This experiment is in the final stage and fundamental data for the sealing function of clay and concrete plugs have been obtained.

This paper presents the total data handling and interpretation of the sealing experiment, as well as the numerical analysis and interpretation for clay plug performance based on tracer test results. As a result of the numerical analysis, the sealing performance of the clay plug was confirmed and it was shown that the excavation disturbed zones (EDZ) around the clay plug and the tunnel could be a dominant transport pathway for radionuclides.

Type
Research Article
Copyright
Copyright © Materials Research Society 2006

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References

REFERENCES

1. Martino, J., Chandler, N.A., Dixon, D., Sugita, Y., Vignal, B. and Hansen, F., “THE TUNNEL SEALING EXPERIMENT AND APPLICATION TO REPOSITORY SEAL DESIGN”, IHLRWM 2003, Las Vegas, NV, March 30-April 2, pp.602609 (2003).Google Scholar
2. Japan Nuclear Cycle Development Institute, “H12: Project to Establish the Scientific and Technical Basis for HLW Disposal in Japan”, JNC Technical Report, JNC TN1410 2000-001 (2000).Google Scholar
3. Chandler, N.A., Cournut, A., Dixon, D., Fairhurst, C., Hansen, F., Gray, M., Hara, K., Ishijima, Y., Kozak, E., Martino, J., Masumoto, K., McCrank, G., Sugita, Y., Thompson, P., Tillerson, J. and Vignal, B., “The five year report of the Tunnel Sealing Experiment: an international project of AECL, JNC, ANDRA and WIPP”, Atomic Energy of Canada Limited Report AECL-12127 (2002).Google Scholar
4. Toida, M., Sasakura, T., Atsumi, H., Masumoto, K., Tanaka, T., Suyama, Y., Kobayashi, I., Morikawa, S. and Tachikawa, S., “Study for evaluation of performance of Sealing Technique”, JNC Technical Report, JNC TJ8400 2004-023 (2005). (in Japanese)Google Scholar
5. Kawabata, J. and Nakayama, M., “Evaluation of Contaminant Transport Characteristics through In-situ Tracer Test and Column Test”, Geo-environmental Engineering; Contaminant Ground; Fate of Pollutants and remediation, Thomas Telford, pp.99105 (1997).Google Scholar
6. Japan Nuclear Cycle Development Institute, “H17 Progress Report on Research and Development for the Geologcal Disposal of HLW in Japan: Part 2 Design and Engineering Technology”, JNC Technical Report, JNC TN1400 2005-015 (2005). (in Japanese)Google Scholar