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Grimsel Test Site - Phase VI: Review of Accomplishments and Next Generation of In-Situ Experiments Under Repository Relevant Boundary Conditions

Published online by Cambridge University Press:  01 February 2011

Ingo Blechschmidt ,
Stratis Vomvoris ,
Joerg Rueedi  and
Andrew James Martin
Ingo Blechschmidt
Affiliation:
Nagra (National Cooperative for the Disposal of Radioactive Waste) 5430 Wettingen, Switzerland
Stratis Vomvoris
Affiliation:
Nagra (National Cooperative for the Disposal of Radioactive Waste) 5430 Wettingen, Switzerland
Joerg Rueedi
Affiliation:
Nagra (National Cooperative for the Disposal of Radioactive Waste) 5430 Wettingen, Switzerland
Andrew James Martin
Affiliation:
Nagra (National Cooperative for the Disposal of Radioactive Waste) 5430 Wettingen, Switzerland
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Abstract

The Grimsel Test Site owned and operated by Nagra is located in the Swiss Alps (www.grimsel.com). The Sixth Phase of investigations was started in 2003 with a ten-year planning horizon. With the investigations and projects of Phase VI the focus has shifted more towards projects assessing perturbation effects of repository implementation and projects evaluating and demonstrating engineering and operational aspects of the repository system. More than 17 international partners participate in the various projects, which form the basic organisational “elements” of Phase VI. Scientific and engineering interaction among the different projects is ensured via an annual meeting and several experimental team meetings throughout the year. On-going projects include: evaluation of full-scale engineered systems under simulated heat production and long-term natural saturation (NF-Pro/FEBEX), gas migration through engineered barrier systems (GMT, finished this year), emplacement of a shotcrete low-pH plug (ESDRED/Module IV), testing and evaluation of standard monitoring techniques (TEM).

Numerous in-situ experiments with inactive tracers and radionuclides were successfully carried out over the past few years at the Grimsel Test Site (GTS). For the GTS Phase VI, three major projects have been initiated to simulate the long-term behaviour of contamination plumes in the repository near-field and the surrounding host rock:

•The CFM (Colloid Formation and Migration) project, which focuses on colloid generation and migration from a bentonite source doped with radionuclides

•The LCS (Long-Term Cement Studies) project, which aims at improving the understanding of low-pH cement interaction effects in water conducting features

•The LTD (Long-Term Diffusion) project, which aims at in-situ verification of long-term diffusion concepts for radionuclides

As Phase VI approaches its mid-term point, what are the next steps planned? The accomplishments assessed to date and the opportunities with the on-going projects as well as new projects – currently under discussion – are presented herein

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 1107: Scientific Basis for Nuclear Waste Management XXXI , 2008 , 547
Copyright
Copyright © Materials Research Society 2008

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References

1 McCombie, C., McKinley, I.G. and Vomvoris, S., “Contributions of the Grimsel Test Site (GTS) to Swiss site characterisation programmes –High level radioactive waste management: Proceedings of the sixth annual international conference”: Las Vegas, Nevada, April 30-May 5, 1995. American Nuclear Society, La Grange Park (1995).Google Scholar
2 Vomvoris, S., Kickmaier, W. and McKinley, I.G., “Grimsel Test Site – the next decades”. Sci. Basis Nucl. Waste Manag. XXVI, 1321 (2003).Google Scholar
3 Kickmaier, W., Vomvoris, S. and McKinley, I. G., “Brothers Grimsel”. Nucl. Engin. Internat. 50, 1013 (2005a).Google Scholar
4 McKinley, I.G., Alexander, W.R., Bajo, C., Frick, U., Hadermann, J., Herzog, F.A. and Hoehn, E., “The radionuclide migration experiment at the Grimsel rock laboratory, Switzerland“. Sci. Basis Nucl. Waste Manag. XI, 179187 (1988).Google Scholar
5 Smith, P.A., Alexander, W. R., Kickmaier, W., Ota, K., Frieg, B. and McKinley, I.G., “Development and Testing of Radionuclide Transport Models for Fractured Rock: Examples from the Nagra/JNC Radionuclide Migration Programme in the Grimsel Test Site, Switzerland”. J. Contam. Hydrol. 47, 335348 (2001).Google Scholar
6 , Möri, Alexander, W.R., Geckeis, H., Hauser, W., Schaefer, T., Eikenberg, J., Fierz, T., Degueldre, C. and Missana, T., “The Colloid and Radionuclide Retardation experiment (CRR) at the Grimsel Test Site (GTS): influence of bentonite colloids on radionuclide migration in a fractured rock”. Colloids and Surfaces A, 217, 3347 (2003).Google Scholar
7 Kickmaier, W., Vomvoris, S.; McKinley, I.G. and Alexander, W.R.: Grimsel Test Site: challenges for the 21st century and beyond. European Geologist / 19, pp. 1922 (2005b).Google Scholar
8 Vomvoris, S., Kickmaier, W., McKinley, I., “Grimsel Test Site: 20 years of research in fractured crystalline rocks – Experience gained and future needs”, in Proceedings of the Second International Symposium on Dynamics of Fluid in Fractured Rock, Report No.LBNL-54275, Berkeley National Laboratory, Feb. 10-12, 2004.Google Scholar
9 Vomvoris, S. and Kickmaier, W., Grimsel Test Site – Phase VI: Review of accomplishments and next steps, Proc. 11th ICEM2007, ICEM07-7239 (to be published).Google Scholar
10 Neretnieks, I., 1980. Diffusion in the rock matrix: an important factor in radionuclide retardation? J. Geophys. Res. 85, 43794397.Google Scholar
11 Soler, J.M., Pfingsten, W., Paris, B., Mäder, U.K., Frieg, B., Neall, F., Källvenius, G., Yui, M., Yoshida, Y., Shi, P., Rochelle, Ch. A. and Noy, D.J., Grimsel Test Site – Investigation Phase V, HPF-Experiment: Modelling Report, June 2006, Nagra Technical Report 05-01, Nagra, Wettingen, Switzerland.Google Scholar