Time evolution of MX-80 bentonite geochemistry under thermo-hydraulic gradients
| dc.contributor.author | Gómez-Espina, R | |
| dc.contributor.author | Villar, M.V. | |
| dc.date.accessioned | 2017-03-07T13:08:40Z | |
| dc.date.available | 2017-03-07T13:08:40Z | |
| dc.date.issued | 2016-05 | |
| dc.description | Indexación: Web of Science | es |
| dc.description.abstract | Two 20-cm long columns of MX-80 bentonite compacted at a nominal dry density of 1.7 g/cm(3) with a water content of 17% were tested in thermo-hydraulic (TH) cells with the aim of simulating the conditions of a sealing material in a nuclear waste repository. On top of the columns a hydration surface simulated the host rock supplying groundwater and at the bottom a heater simulated the waste canister. The tests comprised two phases: a heating phase and a 'heating + hydration' phase. The temperatures at the ends of the columns were set during the last phase to 30 degrees C at the top and 140 degrees C at the bottom, respectively. The thermo-hydraulic treatment resulted in major changes along the bentonite columns. These changes led to significant gradients along the column with respect to the physical state (water content, dry density) and geochemistry of the bentonite. Smectite dissolution processes occurred. As a result, colloids were probably produced, particularly in the more hydrated areas. In the warmest part of the columns precipitation of carbonates took place, caused by their solubility decrease with temperature and the evaporation. The increase in water content reduced the ionic strength of the pore water in the more hydrated areas where species such as gypsum were dissolved. The solubilized ions were transported towards the bottom of the columns; Na+, Ca+, Mg2+ and SO42- moved at a similar rate and K+ and Cl- moved farther. These solubilized ions precipitated in the form of salts farther away along the columns as the test was longer. The TH treatment implied the loss of exchangeable positions in the smectite, particularly towards the heater. The cation exchange complex was also modified. | es |
| dc.description.uri | http://www.ingentaconnect.com/content/minsoc/cm/2016/00000051/00000002/art00003 | |
| dc.identifier.citation | Clay Minerals, Volume 51, Number 2 | es |
| dc.identifier.issn | 0009-8558 | |
| dc.identifier.other | 10.1180/claymin.2016.051.2.03 | |
| dc.identifier.uri | http://repositorio.unab.cl/xmlui/handle/ria/3053 | |
| dc.language.iso | en | es |
| dc.publisher | MINERALOGICAL SOC | es |
| dc.subject | Bentonite | es |
| dc.subject | Engineered barriers | es |
| dc.subject | Nuclear waste | es |
| dc.subject | Pore water | es |
| dc.subject | Thermo-hydraulic treatment | es |
| dc.title | Time evolution of MX-80 bentonite geochemistry under thermo-hydraulic gradients | es |
| dc.type | Artículo | es |
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