Development of the Supercontainer Design for Deep Geological Disposal of High-Level Heat Emitting Radioactive Waste in Belgium

Johan J.P. Bel; Stephen M. Wickham; Robert M.F. Gens

doi:10.1557/PROC-932-122.1

Abstract

ONDRAF-NIRAS has recently selected a Supercontainer with a Portland Cement (PC) buffer as the preferred new reference design for disposal of HLW and spent fuel. The selection process involved a multi-criteria analysis of alternative design options, which were evaluated against a range of long-term safety and feasibility criteria. A PC concrete has been chosen for the buffer because this will provide a highly alkaline chemical environment, which will last for thousands of years. In this environment the external surface of the overpack will be passivated and overpack corrosion will be inhibited. The concrete buffer also has low-hydraulic conductivity to slow the infiltration of external fluids to the overpack surface, and provides radiological shielding.

ONDRAF-NIRAS has made a preliminary evaluation of the viability of the reference Supercontainer design. The following areas were reviewed and investigated: radiolysis, thermo-hydraulic (TH) behaviour of the concrete buffer, metal corrosion, the chemical and mineralogical evolution of the concrete buffer, and relevant industrial experience. This paper describes the main findings, and identifies remaining design and performance uncertainties. Prioritisation and recommendations for future work are also given.

References

REFERENCES

[1] ONDRAF-NIRAS (2002). Safety Assessment and Feasibility Interim Report 2. ONDRAF Report Ref: NIROND 2001–05 F.Google Scholar

[2] NEA (2003). SAFIR 2: Belgian R&D programme on the deep disposal of high-level and long-lived radioactive waste – an International Peer Review. NEA OECD Report, ISBN 92-64-18499-6.Google Scholar

[3] ONDRAF-NIRAS (2004). A Review of Corrosion and Material Selection Issues Pertinent to Underground Disposal of Highly Active Nuclear Waste in Belgium. ONDRAF Report Ref: NIROND 2004-02.Google Scholar

[4] ONDRAF-NIRAS (2004). Multi-Criteria Analysis on the Selection of a Reference EBS Design for Vitrified High Level Waste. ONDRAF Report Ref: NIROND 2004-2003.Google Scholar

[5] Galson Sciences (2005). Belgian Supercontainer Design for HLW and Spent Fuel Disposal: Evaluation of the Reference Design. Galson Sciences Report 0460-5.Google Scholar

Crossref Citations

This article has been cited by the following publications. This list is generated based on data provided by Crossref.

Kursten, B. and Druyts, F. 2008. Methodology to make a robust estimation of the carbon steel overpack lifetime with respect to the Belgian Supercontainer design. Journal of Nuclear Materials, Vol. 379, Issue. 1-3, p. 91.

Van Iseghem, Pierre Lemmens, Karel Valcke, Elie and Aertsens, Marc 2009. Environmental Issues and Waste Management Technologies in the Materials and Nuclear Industries XII. p. 103.

Crossland, I.G. 2011. Handbook of Advanced Radioactive Waste Conditioning Technologies. p. 363.

Gin, S. Abdelouas, A. Criscenti, L.J. Ebert, W.L. Ferrand, K. Geisler, T. Harrison, M.T. Inagaki, Y. Mitsui, S. Mueller, K.T. Marra, J.C. Pantano, C.G. Pierce, E.M. Ryan, J.V. Schofield, J.M. Steefel, C.I. and Vienna, J.D. 2013. An international initiative on long-term behavior of high-level nuclear waste glass. Materials Today, Vol. 16, Issue. 6, p. 243.

Gin, Stéphane Frugier, Pierre Jollivet, Patrick Bruguier, Florence and Curti, Enzo 2013. New Insight into the Residual Rate of Borosilicate Glasses: Effect of S/V and Glass Composition. International Journal of Applied Glass Science, Vol. 4, Issue. 4, p. 371.

Ferrand, Karine Liu, Sanheng and Lemmens, Karel 2013. The Interaction Between Nuclear Waste Glass and Ordinary Portland Cement. International Journal of Applied Glass Science, Vol. 4, Issue. 4, p. 328.

2014. Cementitious Materials for Nuclear Waste Immobilization. p. 221.

Ferrand, K. Liu, S. and Lemmens, K. 2014. The Effect of Ordinary Portland Cement on Nuclear Waste Glass Dissolution. Procedia Materials Science, Vol. 7, Issue. , p. 223.

Cachoir, C. Mennecart, Th. and Lemmens, K. 2014. Effect of cement water on UO2 solubility. MRS Proceedings, Vol. 1665, Issue. , p. 267.

Cachoir, Christelle Salah, Sonia Mennecart, Thierry and Lemmens, Karel 2016. Uranium Dissolution in Hyperalkaline TMA-OH Solutions: Preliminary Results. Procedia Chemistry, Vol. 21, Issue. , p. 306.

Phung, Quoc Tri Maes, Norbert Jacques, Diederik De Schutter, Geert and Ye, Guang 2016. Investigation of the changes in microstructure and transport properties of leached cement pastes accounting for mix composition. Cement and Concrete Research, Vol. 79, Issue. , p. 217.

Phung, Quoc Tri Maes, Norbert and Jacques, Diederik 2018. Proceedings of the 4th Congrès International de Géotechnique - Ouvrages -Structures. Vol. 8, Issue. , p. 1107.

Caes, Sebastien Druyts, Frank and Thomas, Peter 2018. Release and speciation of carbon from Zircaloy-4 in anaerobic and highly alkaline conditions: Comparison of simple immersion and potentiostatic corrosion tests. Radiocarbon, Vol. 60, Issue. 6, p. 1787.

Mann, Colleen Le Hoh, Tjin Thorpe, Clare L. and Corkhill, Claire L. 2018. Dissolution of glass in cementitious solutions: An analogue study for vitrified waste disposal. MRS Advances, Vol. 3, Issue. 21, p. 1147.

Mann, Colleen Ferrand, Karine Liu, Sanheng Eskelsen, Jeremy R. Pierce, Eric Lemmens, Karel and Corkhill, Claire 2019. Influence of young cement water on the corrosion of the International Simple Glass. npj Materials Degradation, Vol. 3, Issue. 1,

Phung, Quoc Tri Maes, Norbert Jacops, Elke Jacques, Diederik De Schutter, Geert and Ye, Guang 2019. Insights and issues on the correlation between diffusion and microstructure of saturated cement pastes. Cement and Concrete Composites, Vol. 96, Issue. , p. 106.

Isaacs, Matthew Lange, Steve Deissmann, Guido Bosbach, Dirk Milodowski, Antoni E. and Read, David 2020. Retention of technetium-99 by grout and backfill cements: Implications for the safe disposal of radioactive waste. Applied Geochemistry, Vol. 116, Issue. , p. 104580.

Lange, Steve Klinkenberg, Martina Barthel, Juri Bosbach, Dirk and Deissmann, Guido 2020. Uptake and retention of molybdenum in cementitious systems. Applied Geochemistry, Vol. 119, Issue. , p. 104630.

Gaona, Xavier Altmaier, Marcus Androniuk, Iuliia Çevirim-Papaioannou, Nese Herm, Michel Iglesias-Perez, Luis Jo, Yongheum Metz, Volker Skerencak-Frech, Andrej Tasi, Agost and Geckeis, Horst 2021. Cement as a component of the multi-barrier system: radionuclide retention in cementitious environments. Safety of Nuclear Waste Disposal, Vol. 1, Issue. , p. 151.

Ferrand, Karine Klinkenberg, Martina Caes, Sébastien Poonoosamy, Jenna Van Renterghem, Wouter Barthel, Juri Lemmens, Karel Bosbach, Dirk and Brandt, Felix 2021. Dissolution Kinetics of International Simple Glass and Formation of Secondary Phases at Very High Surface Area to Solution Ratio in Young Cement Water. Materials, Vol. 14, Issue. 5, p. 1254.

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Development of the Supercontainer Design for Deep Geological Disposal of High-Level Heat Emitting Radioactive Waste in Belgium

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Development of the Supercontainer Design for Deep Geological Disposal of High-Level Heat Emitting Radioactive Waste in Belgium

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