Web of Science: 2 cites, Scopus: 3 cites, Google Scholar: cites
Modeling of the thermohydrodynamic and reactive behavior of compacted clay for high-level radionuclide waste-management systems
Juncosa, Ricardo (Universidade da Coruña)
Navarro, Vicente (Universidad de Castilla-La Mancha)
Delgado, Jordi (Universidade da Coruña)
Vázquez, Ana (Universidade da Coruña)

Data: 2010
Resum: Bentonite is often proposed as an engineered-buffer material in high-level radionuclide waste- management systems. For effective design of the barrier that will provide protection over the long time periods required, the physical/thermal/chemical processes taking place in the barrier material must be understood thoroughly. These processes, which interact, include the flow of water and gas, the flow of heat, and the transport and reaction of chemical constituents. The purpose of this study was to better understand the processes that occurred in a small-scale experiment within a confined bentonite space. A conceptual and mathematical model (FADES-CHEM) was built in order to simulate the results of an experiment conducted in 2000, and thereby to gain a better understanding of the controlling processes. In that experiment, a block of compacted bentonite was placed in an air-tight cell and subjected, for 6 months, to simultaneous heating and hydration from opposite sides. The bentonite block was then sliced into five sections each of which was then analyzed in order to obtain a series of physicochemical parameters illustrating the changes that had occurred. Before modeling, the chemical composition of the bentonite pore waters was restored in order to account for different processes such as gas outgassing and cell cooling. Modeling indicated that gas-pressure build up was a relevant process when computing the saturation of bentonite, and the computations in the present study suggested that evaporation/condensation processes played a crucial role in the final distribution of the water content. Gas pressure and evaporation/ condensation also affected the geochemical system, and the numerical model developed gives results that were consistent with the experimental values and trends observed. The model reproduced the results obtained and enable use at the repository scale and over longer time frames, provided that adequate data are available.
Nota: Número d'acord de subvenció MCT/BIA2005-07916-C01/2
Drets: Tots els drets reservats.
Llengua: Anglès
Document: article ; recerca ; publishedVersion
Matèria: Bentonite ; Contaminant Transport ; Multiphase Flow ; Numerical Modeling ; Reactive Transport
Publicat a: Clays and Clay Minerals, Vol. 58, Núm. 4 (2010) , p. 486-500, ISSN 1552-8367

DOI: 10.1346/CCMN.2010.0580404

15 p, 1.1 MB
 Accés restringit a la UAB

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