Bentonite evolution at elevated pressures and temperatures: An experimental study for generic nuclear repository designs

Cheshire, Michael C.; Caporuscio, Florie; Rearick, M.; Jové-Colón, Carlos F.; McCarney, Mary Kate

doi:10.2138/am.2014.4673

Cited by 28 publications

(33 citation statements)

References 63 publications

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“…These experiments are important in evaluating the potential effects of secondary minerals in bentonite. Such effects have been identified in bentonite hydrothermal experiments conducted by UFD (Cheshire et al, 2014), where degradation of secondary phases could yields marked effects on the altered mineral assemblage and solution chemistry.…”

Section: Benchmark 1: Salt Diffusion In Montmorillonitementioning

confidence: 97%

“…• The effect of soluble or unstable phases in the buffer/backfill clay matrix: Current UFDC experimental activities on clay interactions have revealed the effects of minor phases on the high temperature degradation of barrier clay material (Cheshire et al, 2014). Benchmark 2 has provided a data set on the effect of gypsum dissolution embedded with clay.…”

Section: Potential Future Ebs-c Tasks and Outlookmentioning

confidence: 99%

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International Collaboration Activities in Different Geologic Disposal Environments

Birkholzer

2015

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This report describes the current status of international collaboration regarding geologic disposal research in the Used Fuel Disposition (UFD) Campaign. Since 2012, in an effort coordinated by Lawrence Berkeley National Laboratory, UFD has advanced active collaboration with several international geologic disposal programs in Europe and Asia. Such collaboration allows the UFD Campaign to benefit from a deep knowledge base with regards to alternative repository environments developed over decades, and to utilize international investments in research facilities (such as underground research laboratories), saving millions of R&D dollars that have been and are being provided by other countries. To date, UFD's International Disposal R&D Program has established formal collaboration agreements with five international initiatives and several international partners, and national lab scientists associated with UFD have conducted specific collaborative R&D activities that align well with its R&D priorities. Guiding principles for selection of collaboration options and activities are as follows:• Focus on activities that complement ongoing disposal R&D within UFD (e.g., the science and engineering tools developed in UFD are tested in comparison with international experiments).• Select collaborative R&D activities based on technical merit, relevance to safety case, and cost/benefit, and strive for balance in terms of host rock focus and repository design.• Emphasize collaboration that provides access to and/or allows participation in field experiments conducted in operating underground research laboratories not currently available in the U.S. (i.e., clay, crystalline).• Focus on collaboration opportunities for active R&D participation (i.e., U.S. researchers work closely together with international scientists on specific R&D projects relevant to both sides). Key Issues Tackled in Current and Planned PortfolioThe current work conducted within international activities centers on the following key research questions:• Near-Field Perturbation: How important is the near-field damage to a host rock (such as clay and salt) due to initial mechanical and thermal perturbation, and how effective is healing and sealing of the damage zone in the long term? How reliable are existing constitutive models for the deformation of elastoplastic and plastic geomaterials as affected by temperature and watercontent changes? • Engineered Barrier Integrity: What is the long-term stability and retention capability of backfills and seals? Can bentonite mixtures be developed that allow for gas-pressure release while maintaining sealing properties for water? Can bentonite be eroded when in contact with water from flowing fractures? How relevant are interactions between engineered and natural barrier materials, such as metal-bentonite-cement interactions? • Radionuclide Transport: Can the radionuclide transport in fractured rock be predicted with confidence? What is the potential for enhanced transport with colloids? How can the diffusive transport proce...

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Section: Benchmark 1: Salt Diffusion In Montmorillonitementioning

confidence: 97%

Section: Potential Future Ebs-c Tasks and Outlookmentioning

confidence: 99%

International Collaboration Activities in Different Geologic Disposal Environments

Birkholzer

2015

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“…These experiments are important in evaluating the potential effects of secondary minerals in bentonite. Such effects have been identified in bentonite hydrothermal experiments (Cheshire et al, 2014) where degradation of secondary phases could yields marked effects on the altered mineral assemblage and solution chemistry. Figure 11.…”

Section: Benchmark 2: Gypsum Dissolution In Na-and Ca-montmorillonitementioning

confidence: 98%

International Collaborations on Engineered Barrier Systems: Brief Overview of SKB-EBS Activities.

Jové-Colón

2015

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Research collaborations with international partners on the behavior and performance of engineered barrier systems (EBS) are an important aspect of the DOE-NE Used Fuel Disposition Campaign strategy in the evaluation of disposal design concepts. These international partnerships are a cost-effective way of engaging in key R&D activities with common goals resulting in effective scientific knowledge exchanges thus enhancing existing and future research programs in the USA. This report provides a brief description of the activities covered by the Swedish Nuclear Fuel and Waste Management Company (SKB) EBS Task Force (TF) (referred hereafter as SKB EBS TF) and potential future directions for engagement of the DOE-NE UFDC program in relevant R&D activities. Emphasis is given to SKB EBS TF activities that are still ongoing and aligned to the UFDC R&D program. This include utilization of data collected in the bentonite rock interaction experiment (BRIE) and data sets from benchmark experiments produced by the chemistry or "C" part of the SKB EBS TF. Potential applications of information generated by this program include comparisons/tests between model and data (e.g., reactive diffusion), development and implementation of coupled-process models (e.g., HM), and code/model benchmarking.

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“…Reviews of the performance of bentonite backfill at temperatures exceeding 100 o C (e.g., Wersin et al, 2007;Pusch et al, 2010), modeling Zheng et al, 2014a), and experiment studies (e.g. Pusch et al, 2003;Caporuscio et al, 2012;Cheshire et al, 2013;Cheshire et al, 2014) of the mechanical and chemical changes at temperature up to 300 o C showed little or moderate deterioration of bentonite. While further analyses of the THMC alteration of EBS bentonite and argillite at high temperatures are warranted, these modeling (e.g.…”

Section: Layout For 12 Pwr Waste Packagementioning

confidence: 99%

“…Zheng et al, 2014a) and experimental (e.g. Cheshire et al, 2014) studies in the UFDC are suggestive that an argillite repository with EBS bentonite could sustain temperatures higher than a 100 o C. Thermal analyses with the Disposal System Evaluation Framework (DSEF) are needed to determine the drift and waste package spacing under higher thermal loads, e.g., 150 o C.…”

Section: Layout For 12 Pwr Waste Packagementioning

confidence: 99%

Generic Argillite/Shale Disposal Reference Case

Zheng¹,

Colon²,

Bianchi³

et al. 2014

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Bentonite evolution at elevated pressures and temperatures: An experimental study for generic nuclear repository designs

Cited by 28 publications

References 63 publications

International Collaboration Activities in Different Geologic Disposal Environments

International Collaboration Activities in Different Geologic Disposal Environments

International Collaborations on Engineered Barrier Systems: Brief Overview of SKB-EBS Activities.

Generic Argillite/Shale Disposal Reference Case

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