Characterization of Bentonites from the In Situ ABM5 Heater Experiment at Äspö Hard Rock Laboratory, Sweden

dc.contributor.authorFernández, Ana María
dc.contributor.authorMarco, José F.
dc.contributor.authorNieto, Paula
dc.contributor.authorLeón, Francisco Javier
dc.contributor.authorRobredo, Luz María
dc.contributor.authorClavero, Maria Angeles
dc.contributor.authorCardona, Ana Isabel
dc.contributor.authorFernández, Sergio
dc.contributor.authorSvensson, Daniel
dc.contributor.authorSellin, Patrik
dc.date.accessioned2025-01-29T22:16:55Z
dc.date.available2025-01-29T22:16:55Z
dc.date.issued2022-04-12
dc.description.abstractThe Alternative Buffer Material ABM5 experiment is an in situ medium-scale experiment performed at Äspö Hard Rock Laboratory (HRL) conducted by SKB in Sweden with the aim of analysing the long-term stability of bentonites used as an engineering barrier for a high-level radioactive waste repository (HLWR). In this work, four different ring-shaped Ca- and Na-bentonite blocks, which were piled around a carbon steel cylindrical heater, subjected to a maximum temperature of 250 C and hydrated with saline Na-Ca-Cl Äspö groundwater (0.91 ionic strength), were characterized after dismantling. This work allowed us to identify the main geochemical processes involved, as well as the modifications in the physico-chemical properties and pore water composition after 4.4 years of treatment. No significant modifications in mineralogy were observed in samples close to the heater contact, except an increase in Fe content due to C-steel corrosion, carbonate dissolution/precipitation (mainly calcite and siderite) and Mg increase. No magnetite and a low amount of Fe(II) inside the clay mineral structure were detected. No modifications were observed in the smectite structure, except a slight increase in total and tetrahedral charge. A decrease in external surface area and cation exchange capacity (CEC) was found in all samples, with lower values being detected at the heater contact. As a consequence of the diffusion of the infiltrating groundwater, a modification of the composition at clay mineral exchange sites occurred. Ca-bentonites increased their Na content at exchange sites, whereas Na-bentonite increased their Ca content. Exchangeable Mg content decreased in all bentonites, except in MX-80 located at the bottom part of the package. A salinity gradient is observed through the bentonite blocks from the granite to the heater contact due to anions are controlled by diffusion and anion exclusion. The pore water chemistry of bentonites evolved as a function of the diffusion transport of the groundwater, the chemical equilibrium of cations at exchange sites and mineral dissolution/precipitation processes. These reactions are in turn dependent on temperature and water vapor fluxes.es_ES
dc.description.sponsorshipThis work was funded by the EURAD-Concord European Commission Project and CIEMAT. Financial support for grant RTI2018-095303-B-C51 funded by CIN/AEI/10.13039/501100011033 and “ERDF A way of making Europe” is gratefully acknowledged.es_ES
dc.identifier.citationFernández, A.M.; Marco, J.F.; Nieto, P.; León, F.J.; Robredo, L.M.; Clavero, M.Á.; Cardona, A.I.; Fernández, S.; Svensson, D.; Sellin, P. Characterization of Bentonites from the In Situ ABM5 Heater Experiment at Äspö Hard Rock Laboratory, Sweden. Minerals 2022, 12, 471. https://doi.org/10.3390/min12040471es_ES
dc.identifier.issn2075-163X
dc.identifier.urihttps://hdl.handle.net/20.500.14855/4468
dc.language.isoenges_ES
dc.relation.ispartofseriesMinerals;12
dc.rights.accessRightsopen accesses_ES
dc.subjectbentoniteses_ES
dc.subjectsmectiteses_ES
dc.subjectpore water chemistryes_ES
dc.subjectmineralogyes_ES
dc.subjectcation exchangees_ES
dc.subjectABM experimentes_ES
dc.subjectlarge-scale testses_ES
dc.titleCharacterization of Bentonites from the In Situ ABM5 Heater Experiment at Äspö Hard Rock Laboratory, Swedenes_ES
dc.typejournal articlees_ES

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