Generation and stability of bentonite colloids at the bentonite/granite interface of a deep geological radioactive waste repository

The possible mechanisms of colloid generation at the near field/far field interface of a radioactive repository have been investigated by means of novel column experiments simulating the granite/bentonite boundary, both in dynamic and in quasi-static water flow conditions. It has been shown that sol...

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Bibliographic Details
Published in:Journal of contaminant hydrology 2003-03, Vol.61 (1), p.17-31
Main Authors: Missana, Tiziana, Alonso, Úrsula, Turrero, Maria Jesús
Format: Article
Language:English
Subjects:
Aluminum Silicates
Bentonite
Bentonite - chemistry
Chemical potential
Clay (material)
Coagulation
Colloids
Colloids - chemistry
Contaminants
Dynamic tests
Earth sciences
Earth, ocean, space
Engineering and environment geology. Geothermics
Erosion rate
Exact sciences and technology
Flow rate
Geology
Granite
Hydrogen-Ion Concentration
Hydrology
Kinetics
Mineralogy
Pollution, environment geology
Radioactive Waste
Reaction kinetics
Refuse Disposal - methods
Repositories
Scattering
Silicates
Silicon Dioxide - chemistry
Soil Pollutants, Radioactive
Stability
Waste disposal
Waste repository
Water Pollutants, Radioactive
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Summary:The possible mechanisms of colloid generation at the near field/far field interface of a radioactive repository have been investigated by means of novel column experiments simulating the granite/bentonite boundary, both in dynamic and in quasi-static water flow conditions. It has been shown that solid particles and colloids can be detached from the bulk and mobilised by the water flow. The higher the flow rate, the higher the concentration of particles found in the water, according to an erosion process. However, the gel formation and the intrinsic tactoid structure of the clay play an important role in the submicron particle generation even in the compacted clay and in a confined system. In fact, once a bentonite gel is formed, in the regions where the clay is contacted with water, clay colloids can be formed even in quasi-static flow conditions. The potential relevance of these colloids in radionuclide transport has been studied by evaluating their stability in different chemical environments. The coagulation kinetics of natural bentonite colloids was experimentally studied as a function of the ionic strength and pH, by means of time-resolved light scattering techniques. It has been shown that these colloids are very stable in low saline (∼1×10 −3 M) and alkaline (pH≥8) waters.
ISSN:0169-7722
1873-6009
DOI:10.1016/S0169-7722(02)00110-9