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Project Opalinus Clay – Geoscientific Basis for the Demonstration of Feasibility of Disposal (Entsorgungsnachweis) for SF, Vitrified HLW and Long-Lived ILW in Switzerland

Published online by Cambridge University Press:  01 February 2011

A. Gautschi ,
A. Lambert  and
P. Zuidema
A. Gautschi
Affiliation:
Nagra, CH-5430 Wettingen, Switzerland
A. Lambert
Affiliation:
Nagra, CH-5430 Wettingen, Switzerland
P. Zuidema
Affiliation:
Nagra, CH-5430 Wettingen, Switzerland
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Abstract

Nagra - the Swiss National Cooperative for the Disposal of Radioactive Waste - has completed a study to determine the suitability of Opalinus Clay as a host rock for a SF/HLW/ILW repository in a potential siting area (reference repository site) in the Zürcher Weinland in northeastern Switzerland. Geoscientific information has been used to a wide extent for the demonstration of siting and engineering feasibility, and for the demonstration of long-term safety. It is shown that the selected area in the Zürcher Weinland fulfils the fundamental requirements placed on a siting area for a deep geological repository and that, in terms of the Opalinus Clay host rock option, the geological environment is advantageous.

Type
Research Article
Information
MRS Online Proceedings Library (OPL) , Volume 807: Symposium Scientific Basis for Nuclear Waste Management XXVII , 2003 , 893
Copyright
Copyright © Materials Research Society 2004

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References

REFERENCES

1. Nagra (2002a): Projekt Opalinuston: Synthese der geowissenschaftlichen Untersuchungsergebnisse. Entsorgungsnachweis für abgebrannte Brennelemente, verglaste hochaktive sowie langlebige mittelaktive Abfälle. Nagra Technischer Bericht NTB 02–03, Nagra, Wettingen, Switzerland.Google Scholar
2. Nagra (2002b): Projekt Opalinuston: Konzept für die Anlage und den Betrieb eines geologischen Tiefenlagers. Entsorgungsnachweis für abgebrannte Brennelemente, verglaste hochaktive sowie langlebige mittelaktive Abfälle. Nagra Technischer Bericht NTB 02–02, Nagra, Wettingen, Switzerland.Google Scholar
3. Nagra (2002c): Project Opalinus Clay: Safety Report. Demonstration of disposal feasibility (Entsorgungsnachweis) for spent fuel, vitrified high-level waste and long-lived intermediate-level waste. Nagra Technical Report NTB 02–05, Nagra, Wettingen, Switzerland.Google Scholar
4. Nagra (1988): Sedimentstudie - Zwischenbericht 1988: Möglichkeiten zur Endlagerung langlebiger radioaktiver Abfälle in den Sedimenten der Schweiz. (Text- und Beilagenband). Nagra Technischer Bericht NTB 88–25, Nagra, Wettingen, Switzerland.Google Scholar
5. Nagra (1991): Sedimentstudie Zwischenbericht 1990. Zusammenfassende Übersicht der Arbeiten von 1988 bis 1990 und Konzept für das weitere Vorgehen. Nagra Technischer Bericht NTB 91–19, Nagra, Wettingen, Switzerland.Google Scholar
6. Nagra (1994): Sedimentstudie Zwischenbericht 1993. Zusammenfassende Übersicht der Arbeiten von 1990 bis 1994 und Konzept für weitere Untersuchungen. Nagra Technischer Bericht NTB 94–10, Nagra, Wettingen, Switzerland.Google Scholar
7. HSK (2001): Kurzer Überblick über das Auswahlverfahren eines Sedimentstandortes für die Endlagerung hochaktiver Abfälle. Aktennotiz 23/62, Hauptabteilung für die Sicherheit der Kernanlagen, Villigen-HSK, Schweiz.Google Scholar
8. Birkhäuser, Ph., Roth, Ph., Meier, B. & Naef, H. (2001): 3D-Seismik: Räumliche Erkundung der mesozoischen Sedimentschichten im Zürcher Weinland. Nagra Technischer Bericht NTB 00–03, Nagra, Wettingen, Switzerland.Google Scholar
9. Nagra (2001): Sondierbohrung Benken - Untersuchungsbericht. Nagra Technischer Bericht NTB 00–01, Nagra, Wettingen, Switzerland.Google Scholar
10. Numerous reports listed under www.mont-terri.ch Google Scholar
11. Gautschi, A. (2001): Hydrogeology of a fractured shale (Opalinus Clay): Implications for the deep disposal of radioactive wastes. Hydrogeology Journal 9, 97107 (2001).Google Scholar
12. Bruel, D. (2002): Modelling the history of drainage and compaction of Opalinus Clay. Unpublished Nagra Internal Report, Nagra, Wettingen, Switzerland.Google Scholar
13. Johnson, L.H., Schneider, J.W., Zuidema, P., Gribi, P., Mayer, G. & Smith, P.A. (2003): Project Opalinus Clay (Entsorgungsnachweis) - Illustrating the Safety and Robustness of the Proposed Disposal System for SF, HLW and Long-lived ILW (this volume).Google Scholar
14. Gimmi, T. & Waber, H.N. (2003): Modelling of profiles of stable water isotopes, chloride, and chlorine isotopes of pore water in argillaceous rocks in the Benken borehole. Unpublished Nagra Internal Report. Nagra, Wettingen, Switzerland.Google Scholar
15. Pearson, F.J., Arcos, D., Bath, A., Boisson, J.-Y., Fernández, A.M., Gaebler, H.E., Gaucher, E., Gautschi, A., Griffault, L., Hernan, P. & Waber, H.N. (2003): Geochemistry of water in the Opalinus Clay formation at the Mont Terri Rock Laboratory - Synthesis Report. Bern, Switzerland, Berichte des Bundesamtes für Geologie und Wasser - Serie Geologie, Nr. 5.Google Scholar
16. Pearson, F. J. (2002): Benken Reference Water Chemistry. Unpublished Nagra Internal Report, Nagra, Wettingen, Switzerland Google Scholar
17. Bradbury, M.H. & Baeyens, B. (2003): Far-field sorption data base for performance assessment of a high level radioactive waste repository in an undisturbed Opalinus Clay host rock. Nagra Technical Report NTB 02–19, Nagra, Wettingen, Switzerland.Google Scholar