Potential Uranium Migration within the Geochemical Gradient of the Opalinus Clay System at the Mont Terri

Hennig, Theresa; Kühn, Michael

doi:10.3390/min11101087

Cited by 5 publications

(25 citation statements)

References 40 publications

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“…Aqueous uranium speciation in the modelled system is dominated by ternary complexes with carbonate and calcium (Hennig et al, 2020;Hennig and Kühn, 2021a; that are not considered for sorption (Joseph et al, 2013a). Diffusion and sorption experiments of uranium on clay minerals could be modelled without the requirement to include uranium surface complexes with carbonate as they do not sorb or only weakly (Joseph et al, 2013a;Hennig et al, 2020;Hennig and Kühn, 2021b;Tournassat et al, 2018). As ionic strengths in the hydrogeological system of the Opalinus Clay at Mont Terri do not exceed 0.5 mol L −1 (Pearson et al, 2003;Hennig and Kühn, 2021b), the Davies approach (Davies and Shedlovsky, 1964) is used for the database to represent ion-ion interactions (Stockmann et al, 2017;Noseck et al, 2018).…”

Section: Methodsmentioning

confidence: 99%

“…Sorption must be quantified as a function of the geochemical conditions. Further, the results showed that present-day pore water profiles can be explained by diffusive exchange with the embedding aquifers (Mazurek et al, 2011;Hennig and Kühn, 2021b). Previous simulations were conducted using the PSI/Nagra thermodynamic database (Thoenen et al, 2014) including the Nuclear Energy Agency (NEA) data for uranium published by Guillaumont et al (2003).…”

Section: Introductionmentioning

confidence: 96%

“…Migration of uranium, the main component of spent fuel, in the potential host rock Opalinus Clay has been quantified as a function of mineralogical heterogeneities between three litho-facies (shaly, sandy and carbonate-rich, Fig. 1) and for varying partial pressures of carbon dioxide (pCO 2 , Hennig et al, 2020;Hennig and Kühn, 2021a) within the hydrogeological system at Mont Terri (Hennig and Kühn, 2021b). It has been shown that the application of the process-based multi-component diffusion approach (Appelo and Wersin, 2007) provided no additional profit on the host rock scale.…”

Section: Introductionmentioning

confidence: 99%

“…For instance, a difference of 1.33 log units in the value for the stability constant of the neutral complex Ca 2 UO 2 (CO 3 ) 3 changes the migration lengths by 5 to 7 m for the sandy and shaly facies, respectively. The next step, presented here, is the investigation what such a change in underlying thermodynamic data mean in metres difference on the host rock scale after one million years quantified with one-dimensional reactive transport models based on simulations of the hydrogeological system of the Opalinus Clay at Mont Terri (Hennig and Kühn, 2021b). For this, resulting migration lengths are compared between simulations with varying thermodynamic data sets of the NEA for uranium (Guillaumont et al, 2003;Grenthe et al, 2020).…”

Section: Introductionmentioning

confidence: 99%

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Reactive transport simulations of uranium migration in the Opalinus Clay depend on ion speciation governed by underlying thermodynamic data

Hennig

Kühn²

2022

Adv. Geosci.

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Abstract. Safety assessments must demonstrate that radionuclides in potential disposal sites are retained within the containment providing rock zone. The impact of thermodynamic data on calculated migration lengths resulting from reactive transport simulations is quantified for the example of uranium in the hydrogeological system of the Opalinus Clay at Mont Terri. In this geochemical system, speciation is controlled by the calcite-carbonate-ion system. Aqueous uranium is mainly present as U(VI) as ternary complexes with calcium or magnesium together with carbonate. Previous simulations using the first NEA update of thermodynamic data for uranium indicated that the anionic complex CaUO2(CO3)32- is the predominant species with a maximum migration distance of 50 m after one million years. The NEA published an update of the thermodynamic data for uranium, what, in turn, changes the predominant species from anionic to almost only the neutral ternary complex Ca2UO2(CO3)3. With identical simulations, except for the application of the second NEA update, a maximum distance of 80 m was obtained. This can be attributed to a decrease in sorption capacity due to a stronger complexation of uranium with calcium and carbonate. Therefore, the impact of the change in the underlying thermodynamic data can be quantified with +30 m. Our work clearly shows how sensitive migration lengths resulting from reactive transport simulations are to the model conceptualisation and selection of underlying data. Consequently, the compilation and further development of data sets and a site specific investigation are indispensable for reliable outcomes of transport simulations, and thus of performance assessments.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 96%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 2 more Smart Citations

Reactive transport simulations of uranium migration in the Opalinus Clay depend on ion speciation governed by underlying thermodynamic data

Hennig

Kühn²

2022

Adv. Geosci.

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“…Montmorillonite fraction, which is a dioctahedral species of the smectite mineral group, can constitute up to 95% of bentonite. ese functional materials provide restriction of groundwater access to radioactive waste, promote conditions for mass transfer between waste and groundwater by diffusion, overwhelm the migration of radionuclides in colloidal form into groundwater, ensure effective sorption after possible depressurization of radioactive waste containers, and so on [40][41][42][43][44][45]. In addition to their presence in the formations housing the storage facilities and their use as backfill material or as sealing material to isolate parts of disposal facility, montmorillonite is also present as a buffer material in the empty space between the package and the host rock [46][47][48].…”

Section: Introductionmentioning

confidence: 99%

Impact of Uniaxial Mechanical Perturbation on Structural Properties and Smectite Porosity Features: Ion Exchanger Efficiency and Adsorption Performance Fate

Oueslati

Mejri

Amara

2022

Advances in Civil Engineering

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The use of montmorillonite in the context of engineered barriers makes it possible to minimize the spread of heavy metals from industrial and even radioactive waste. An evaluation of the performance of the mechanisms controlling the clay-environment interaction and predicting the dynamics/configuration of the interlayer space (IS) is required. This work focuses on a quantitative identification of the structural changes and porosity alteration in the case of heavy metal-exchanged montmorillonite samples (Co2+ and Cd2+ cations) undergoing mechanical stresses (uniaxial oedometric test (loading/unloading)). Relationships between mechanical stress strength, intrinsic structural response, ion exchanger efficiency, and adsorption performance fate are investigated. This goal is achieved through the correlation of in situ quantitative X-ray diffraction (XRD) analysis (under an extremely controlled atmosphere reached by varying relative humidity rate %rh) and porosity investigation (assured by combining outcomes from BET (Brunauer–Emmett–Teller) and BJH- (Barrett, Joyner, and Halenda-) PSD (pore size distribution) analysis). Obtained results show an upsurge in the structural heterogeneities accompanying the theoretical increase in the mixed layer structure (MLS) number and developing an unconventional hydration behaviour after stress relaxation regardless of exchangeable cation nature. Experimental XRD patterns are reproduced using MLS, which suggests the coexistence of more than one “crystallite” specie and more than one exchangeable cation indicating a complex cation exchange capacity (CEC) saturation. For extremely low %rh value, a new homogeneous dehydrated state trend is observed in the case of the Co2+ cation. Porosity analysis shows mesopore volume growth for the stressed sample and confirms crystallite exfoliation layer trends, results of the layer cohesion damage, and subsequent constraint strength fluctuations.

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Authigenic Mineral Formation in Aquifers near the Uranium Sludge Storage Facility of Chepetsky Mechanical Plant during the Formation of a Biogeochemical Barrier in a Laboratory and Field Experiment

Artemiev,

Safonov

2023

Minerals

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In this work, authigenic microbial mineral formation in groundwater near the uranium sludge storage at SC Chepetsky Mechanical Plant (ChMP) (Glazov, Russia) was analysed in field and laboratory experiments using thermodynamic modelling when the microbial community was activated by a mixture of acetate, glucose and whey. It was found that the mineral basis of the barrier consisted of aggregated soil particles with freshly deposited phases of carbonate and sulphide minerals of different degrees of crystallinity. An important factor in the formation of calcium phases is microbial denitrification, which is accompanied by an increase in pH values of the medium. The main factors of uranium immobilisation in the biogeochemical barrier were revealed, including its reduction to insoluble forms of uranium dioxide, adsorption on ferrous and sulphide-ferrous minerals, as well as the formation of phosphate phases through the addition of phosphorus-containing whey and co-precipitation or co-crystallisation in calcite phases.

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Potential Uranium Migration within the Geochemical Gradient of the Opalinus Clay System at the Mont Terri

Cited by 5 publications

References 40 publications

Reactive transport simulations of uranium migration in the Opalinus Clay depend on ion speciation governed by underlying thermodynamic data

Reactive transport simulations of uranium migration in the Opalinus Clay depend on ion speciation governed by underlying thermodynamic data

Impact of Uniaxial Mechanical Perturbation on Structural Properties and Smectite Porosity Features: Ion Exchanger Efficiency and Adsorption Performance Fate

Authigenic Mineral Formation in Aquifers near the Uranium Sludge Storage Facility of Chepetsky Mechanical Plant during the Formation of a Biogeochemical Barrier in a Laboratory and Field Experiment

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