Influence of reaction kinetics and mesh refinement on the numerical modelling of concrete/clay interactions

Large quantities of cements and concretes need to be incorporated in geological disposal facilities for long-lived radwaste. An alkaline plume diffusing from an aged concrete (pH ∼ 12.5) through argillite-type rocks has been modelled considering feedback of porosity value variations on transport pro...

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Veröffentlicht in:	Journal of hydrology (Amsterdam) 2009-01, Vol.364 (1), p.58-72
Hauptverfasser:	Marty, Nicolas C.M., Tournassat, Christophe, Burnol, André, Giffaut, Eric, Gaucher, Eric C.
Format:	Artikel
Sprache:	eng
Schlagworte:	Clay Concrete Earth Sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Hydrogeology Hydrology. Hydrogeology Kinetic Pollution, environment geology Porosity clogging Sciences of the Universe Sensitivity analysis
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container_title	Journal of hydrology (Amsterdam)
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creator	Marty, Nicolas C.M. Tournassat, Christophe Burnol, André Giffaut, Eric Gaucher, Eric C.
description	Large quantities of cements and concretes need to be incorporated in geological disposal facilities for long-lived radwaste. An alkaline plume diffusing from an aged concrete (pH ∼ 12.5) through argillite-type rocks has been modelled considering feedback of porosity value variations on transport properties using the reactive transport code TOUGHREACT. The mineralogical composition of the argillite is modified at the interface with the concrete. Diffusion of cementitious elements leads to rapid and strong porosity occlusion in the argillite. Numerical results show that both reaction rates and spatial refinement affect mineralogical transformation pathways. The variations in porosity and the extension of the zone affected by the alkaline perturbation are compared at different times. The major effects of mineral precipitation under kinetic constraints, rather than local equilibrium, are a delay in the porosity clogging and an increase in the extension of the alkaline perturbation in the clay formation. The same time-delay rise for the porosity occlusion also appears for the roughest spatial resolutions. A simulation as representative as possible of temporal and spatial scales of cementation processes must then be supported by more comparative data such as long term experimental investigations or natural analogues.
doi_str_mv	10.1016/j.jhydrol.2008.10.013
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An alkaline plume diffusing from an aged concrete (pH ∼ 12.5) through argillite-type rocks has been modelled considering feedback of porosity value variations on transport properties using the reactive transport code TOUGHREACT. The mineralogical composition of the argillite is modified at the interface with the concrete. Diffusion of cementitious elements leads to rapid and strong porosity occlusion in the argillite. Numerical results show that both reaction rates and spatial refinement affect mineralogical transformation pathways. The variations in porosity and the extension of the zone affected by the alkaline perturbation are compared at different times. The major effects of mineral precipitation under kinetic constraints, rather than local equilibrium, are a delay in the porosity clogging and an increase in the extension of the alkaline perturbation in the clay formation. The same time-delay rise for the porosity occlusion also appears for the roughest spatial resolutions. 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subjects	Clay Concrete Earth Sciences Earth, ocean, space Engineering and environment geology. Geothermics Exact sciences and technology Hydrogeology Hydrology. Hydrogeology Kinetic Pollution, environment geology Porosity clogging Sciences of the Universe Sensitivity analysis
title	Influence of reaction kinetics and mesh refinement on the numerical modelling of concrete/clay interactions
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