Abstract
Bentonites are candidate materials for high-level radioactive waste (HLRW) repositories and, therefore, are investigated with respect to long-term stability. In order to identify possible bentonite alteration processes, long-term in situ tests are conducted in rock laboratories. The prototype repository in situ experiment (PR) is one of the best examples of this kind of test due to the size of the installation as well as the duration. In the present study, chemical and mineralogical alteration processes of the bentonite MX 80 after an 8 y heating period were investigated. The water content of all samples increased following inflowing Na-Ca-Cl-type granitic groundwater causing cation exchange in the bentonite buffer materials. Exchangeable magnesium was desorbed in the buffer and MgO concentration increased at the bentonite-Cu canister interface; the Mg sink could not be detected, however. CaO also accumulated at this interface mainly as Ca carbonate and Ca sulfate. Cu corrosion products were identified at the bentonite-canister interface by chemical analysis, scanning electron microscopy equipped with energy dispersive X-ray spectroscopy (SEM-EDX), and differential thermal analysis. Up to 0.5 mm into the bentonites Cu could be detected by SEM-EDX. No cristobalite dissolution was observed in contrast to other in situ tests in which iron heaters were used. The corrosion products and the lubricant which was added during manufacturing of the bentonite blocks were mixed with the bentonite at the bentonite-canister interface. A quantitative measure of that mixture was the decrease in the cation exchange capacity (CEC). The CEC also reduced in all other samples, however, compared to the CECs of the reference samples, particularly in the warmer deposition hole 5 compared to the colder deposition hole 6. Overall, the PR in situ experiment proved that cation exchange reactions occurred in full-scale bentonite buffer experiments in all bentonite blocks but structural degradation of smectite could not be identified.
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Aertens, M., Maes, N., Ravestyn, L. Van, and Brassinnes, S. (2013) Overview of radionuclide migration experiments in the HADES Underground Research Facility at Mol (Belgium). Clay Minerals, 48, 153–166.
Alexander, W.R., Milodowski, A.E., Pitty, A.F., Hardie, S.M.L., Kemp, S.J., Rushton, J.C., Siathas, A., Siathas, A., MacKenzie, A.B., Korkeakoski, P., Norris, S., Sellin, P., and Rigas, M. (2013) Bentonite reactivity in alkaline solutions: interim results of the Cyprus Natural Analogue Project (CNAP). Clay Minerals, 48, 235–249.
Balko, B.A., Bosse, S.A., Cade, A.E., Jones-Landry, E.F., Amonette, J.E., and Daschbach, J.L. (2012) The effect of smectite on the corrosion of iron metal. Clays and Clay Minerals, 60, 136–152.
Bauer, A., Schäfer, T., Dohrmann, R., Hofmann, H., and Kim, J.I. (2001) Smectite stability in slightly acid salt solutions and the fate of Eu, Th and U in solution. Clay Minerals, 36, 93–103.
Bourdelle, F., Truche, L., Mosser-Ruck, R., Lorgeoux, C., Roszypal, C., and Michau, N. (2014) Iron-clay interactions under hydrothermal conditions: impact of iron specific surface area on reaction pathway revealed. Chemical Geology, 381, 194–205.
Dohrmann, R. and Kaufhold, S. (2009) Three new, quick CEC methods for determining the amounts of exchangeable calcium cations in calcareous clays. Clays and Clay Minerals, 57, 338–352.
Dohrmann, R. and Kaufhold, S. (2010) Determination of exchangeable calcium of calcareous and gypsiferous bentonites. Clays and Clay Minerals, 58, 79–88.
Dohrmann, R., Genske, D., Karnland, O., Kaufhold, S., Kiviranta, L., Olsson, S., Plötze, M., Sandén, T., Sellin, P., Svensson, D., and Valter, M. (2012) Interlaboratory exchange of CEC and exchangeable cation results of bentonite buffer material. II. Alternative methods. Clays and Clay Minerals, 60, 176–185.
Dohrmann, R., Kaufhold, S., and Lundqvist, B. (2013a) The role of clays for safe storage of nuclear waste. Pp. 677–710 in: Handbook of Clay Science, Techniques and Applications (F. Bergaya and G. Lagaly, editors). Developments in Clay Science, Vol. 5B, Elsevier, Amsterdam.
Dohrmann, R., Olsson, S., Kaufhold, S., and Sellin, P. (2013b) Mineralogical investigations of the first package of the alternative buffer material test — II. Exchangeable cation population rearrangement. Clay Minerals, 48, 215–233.
Fernández, A.M. and Villar, M.V. (2010) Geochemical behaviour of a bentonite barrier: results up to 8 years of thermo-hydraulic treatment in the laboratory. Applied Geochemistry, 25, 809–824.
Friedrich, A., Grunewald, K., Klinnert, S., and Bechmann, W. (1996) Thermogravimetric and differential thermal analytical investigations on sewage farm soils. Journal of Thermal Analysis and Calorimetry, 46, 1589–1597.
García-Siñeriz, J.-L., Rey, M., and Mayor, J.-C. (2008) The engineered barrier experiment at Mont Terri Rock Laboratory. Science and Technology Series n° 334, 65–75, ANDRA, Franc
Huertas, F., Fariña, P., Farias, J., García-Siñeriz, J.L., Villar, M.V., Fernández, A.M., Martín, P.L., Elorza, F.J., Gens, A., Sánchez, M., Lloret, A., Samper, J., and Martínez, M.A. (2006) Full-scale Engineered Barriers experiment. Updated Final Report 1994–2004. Publicación Técnica ENRESA, Vol. 05-0/2006, 590 pp.
Jodin-Caumon, M.-C., Mosser-Ruck, R., Randi, A., Pierron, O., Cathelineau, M., and Michau, N. (2012) Mineralogical evolution of a claystone after reaction with iron under thermal gradient. Clays and Clay Minerals, 60, 443–455.
Johannesson, L.-E., Börgesson, L., Goudarzi, R., Sandén, T., Gunnarsson, D., and Svemar, C. (2007) Prototype repository: A full-scale experiment at Äspö HRL. Physics and Chemistry of the Earth, 32, 58–76.
Kaufhold, S. and Dohrmann, R. (2007) Implications from the LOT experiment regarding the selection of an optimum HLRW bentonite. Pp. 85–86 in: Clays in Natural & Engineered Barriers for Radioactive Waste Confinement, 3rd International Meeting, program & abstracts, Lille, France.
Kaufhold, S. and Dohrmann, R. (2009a) Mineralogical and geochemical alteration of the MX80 bentonite from the LOT experiment Characterization of the A2 parcel. Pp. 225–250 in: Long-term Test of Buffer Material at the Äspö Hard Rock Laboratory (O. Karnland, S. Olsson, A. Dueck, M. Birgersson, U. Nilsson, T. Hernan-Håkansson, K. Pedersen, S. Nilsson, T.E. Eriksen, and B. Rosborg, editors). LOT project, Final report on the A2 test parcel, TR-09-29, ISSN 1404-0344.
Kaufhold, S. and Dohrmann, R. (2009b) Stability of bentonites in salt solutions I. Sodium chloride. Applied Clay Science, 45, 171–177.
Kaufhold, S. and Dohrmann, R. (2010) Stability of bentonites in salt solutions II. Potassium chloride solution — Initial step of illitization? Applied Clay Science, 49, 98–107.
Kaufhold, S., Dohrmann, R., Sandén, T., Sellin, P., and Svensson, D. (2013) Mineralogical investigations of the first package of the alternative buffer material test — I. Alteration of bentonites. Clay Minerals, 48, 199–213.
Keller, L.M., Seiphoori, A., Gasser, P., Lucas, F., Holzer, L., and Ferrari, A. (2014) The pore structure of compacted and partly saturated MX-80 bentonite at different dry densities. Clays and Clay Minerals, 62, 174–187.
Landais, P., Kaufhold, S., and Dohrmann, R. (2013) Overview of the clay mineralogy studies presented at the ‘Clays in natural and engineered barriers for radioactive waste confinement’ meeting, Montpellier, October 2012. Clay Minerals, 48, 149–152.
Lloret, A. and Villar, M.V. (2007) Advances on the knowledge of the thermo-hydro-mechanical behaviour of heavily compacted “FEBEX” bentonite. Physics and Chemistry of the Earth, 32, 701–715.
Li, X.-L., Bastiaens, W., van Marcke, P., Verstricht, J., Chen, G.J., Weetjens, E., and Sillen, X. (2010) Design and development of large-scale in situ PRACLAY heater test and horizontal high level radioactive waste disposal gallery seal test in Belgian HADES. Journal of Rock Mechanics and Geotechnical Engineering, 2, 103–110.
Martín, P.L., Barcala, J.M., and Huertas, F. (2006) Large-scale and long-term coupled thermo-hydro-mechanic experiments with bentonite: the FEBEX mock-up test. Journal of Iberian Geology, 32, 259–282.
Muurinen, A. (2009) Chemical Conditions in the A2 Parcel of the Long-Term Test of Buffer Material in Äspö (LOT). Pp. 167–190 in: in: Long-term Test of Buffer Material at the Äspö Hard Rock Laboratory (O. Karnland, S. Olsson, A. Dueck, M. Birgersson, U. Nilsson, T. Hernan-Håkansson, K. Pedersen, S. Nilsson, T.E. Eriksen, and B. Rosborg, editors). LOT project, Final report on the A2 test parcel, TR-09-29, ISSN 1404-0344.
Olsson, S. and Karnland, O. (2011) Mineralogical and chemical characteristics of the bentonite in the A2 test parcel of the LOT field experiments at Äspö HRL, Sweden. Physics and Chemistry of the Earth, 36, 1545–1553.
Osacký, M., Šucha, V., Miglierini, M., and Madejovaá, J. (2012) Reaction of bentonites with pyrite concentrate after wetting and drying cycles at 80°C: relevance to radioactive waste (Radwaste) storage. Clay Minerals, 47, 465–479.
Perronnet, M., Villiéras, F., Jullien, M., Razafitianamaharavo, A., Raynal, J., and Bonnin, D. (2007) Towards a link between the energetic heterogeneities of the edge faces of smectites and their stability in the context of metallic corrosion. Geochimica et Cosmochimica Acta, 71, 1463–1479.
Pignatelli, I., Mugnaioli, E., Hybler, J., Mosser-Ruck, R., Cathelineau, M., and Michau, N. (2013) A multi-technique characterization of cronstedtite synthetized by iron-clay interaction in a step-by-step cooling procedure. Clays and Clay Minerals, 61, 277–289.
Pignatelli, I., Bourdelle, F., Bartier, D., Mosser-Ruck, R., Truche, L., Mugnaioli, E., Michau, N. (2014) Iron-clay interactions: a detailed study of claystone mineralogical transformation with emphasis on the formation of iron-rich T-O phyllosilicates in a step-by step cooling experiment from 90°C to 40°C. Chemical Geology, 387, 1–11.
Plötze, M., Kahr, G., Dohrmann, R., and Weber, H. (2007) Hydro-mechanical, geochemical and mineralogical characteristics of the bentonite buffer in a heater experiment. The HE-B project at the Mont Terri rock laboratory. Physics and Chemistry of the Earth, 32, 730–740.
Romero, E. and Li, X.L. (2006) Thermo-hydro-mechanical characterization of OPHELIE backfill mixture. Chinese Journal of Rock Mechanics and Engineering, 25, 733–740.
Sellin, P. and Leupin, O.X. (2014) The use of clay as an engineered barrier in radioactive waste management. Clays and Clay Minerals, 61, 477–498.
Svensson, D., Dueck, A., Nilsson, U., Olsson, S., Sandén, T., Lydmark, S., Jägerwall, S., Pedersen, K., and Hansen, S. (2011) Alternative Buffer Material — Status of the ongoing laboratory investigation of reference materials and test package 1. SKB TR-11-06. https://doi.org/skb.se/upload/publications/pdf/TR-11-06.pdf
Svensson, P.D. and Hansen, S. (2013a) Combined salt and temperature impact on montmorillonite hydration. Clays and Clay Minerals, 61, 328–341.
Svensson, P.D. and Hansen, S. (2013b) Redox chemistry in two iron-bentonite field experiments at Äspö Hard Rock Laboratory, Sweden: An XRD and Fe-K edge XANES study. Clays and Clay Minerals, 61, 566–579.
Villar, M.V. and Lloret, A. (2007) Dismantling of the first section of the FEBEX in situ test: THM laboratory tests on the bentonite blocks retrieved. Physics and Chemistry of the Earth, 32, 716–729.
Villar, M.V., Fernández, A.M., Rivas, P., Lloret, A., Daucausse, D., Montarges-Pelletier, E., Devineau, K., Villieras, F., Hynkovaá, E., Cechova, Z., Montenegro, L., Samper, J., Zheng, L., Robinet, J.C., Muurinen, A., Weber, H.P., Börgesson, L., and Sandén, T. (2006) FEBEX Post-Mortem Bentonite Analysis. Publicación Técnica ENRESA, Spain, vol. 05-1/2006, 183 pp.
Watson, C., Savage, D., Wilson, J., Benbow, S., Walker, C., and Norris, S. (2013) The Tournemire industrial analogue: reactive-transport modelling of a cement-clay interface. Clay Minerals, 48, 167–184.
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Dohrmann, R., Kaufhold, S. Cation Exchange and Mineral Reactions Observed in MX 80 Buffer Samples of the Prototype Repository In Situ Experiment in Äspö, Sweden. Clays Clay Miner. 62, 357–373 (2014). https://doi.org/10.1346/CCMN.2014.0620501
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DOI: https://doi.org/10.1346/CCMN.2014.0620501