Synthesis of results for Brine Availability Test in Salt (BATS) DECOVALEX-2023 Task E

IF 3.3 2区 工程技术 Q3 ENERGY & FUELS Geomechanics for Energy and the Environment Pub Date : 2024-08-04 DOI:10.1016/j.gete.2024.100581
Kristopher L. Kuhlman , Jeroen Bartol , Steven J. Benbow , Michelle Bourret , Oliver Czaikowski , Eric Guiltinan , Kyra Jantschik , Richard Jayne , Simon Norris , Jonny Rutqvist , Hua Shao , Philip H. Stauffer , Hafssa Tounsi , Claire Watson
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Abstract

In the 2023 phase of the international collaborative DECOVALEX modeling project, Task E focused on understanding thermal, hydrological, and mechanical (THM) processes related to predicting brine migration in the excavation damaged zone around a heated excavation in salt. Salt is attractive as a disposal medium for radioactive waste because it is self-healing and is essentially impermeable and non-porous in the far field. Investigation of the short-term, near-field behavior is important for radioactive waste disposal because this early period strongly controls the amount of inflowing brine. Brine leads to corrosion of waste forms and waste packages, and possible dissolution of radionuclides with brine transport being a potential transport vector to the accessible environment.The Task was divided into steps. Step 0 included matching unheated brine inflow data from boreholes at the Waste Isolation Pilot Plant (WIPP) and matching temperature observations during a Brine Availability Test in Salt (BATS) heater test. Step 1 included validation of models against a thermo-poroelastic analytical solution, and two-phase flow around an excavation. Finally, Step 2 required all the individual components covered in steps 0 and 1 to come together to match observed brine inflow behavior during the same BATS heater test.There were a range of approaches from the teams, from mechanistic to prescriptive. Given the uncertainties in the problem, some teams used one- or two-dimensional models of the processes, while other teams included more geometrical complexity in three-dimensional models. Task E was a learning experience for the teams involved, and feedback from the modeling teams has led to changes in follow-on BATS experiments at WIPP. The primary Task E lessons learned were the impact of hydrologic initialization methods (wetting up vs. drying down), the difference between confined and unconfined thermal expansion, and the large changes in permeability associated with heating and cooling.

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盐中可用盐水测试 (BATS) DECOVALEX-2023 任务 E 的结果综述
在国际合作 DECOVALEX 建模项目的 2023 阶段,任务 E 的重点是了解与预测盐中加热挖掘受损区的盐水迁移有关的热量、水文和机械(THM)过程。盐作为放射性废物的处置介质非常有吸引力,因为它具有自愈性,而且在远场基本上是不渗透和无孔的。对短期近场行为的研究对于放射性废料的处理非常重要,因为在这一早期阶段,流入的盐水量会受到很大控制。盐水会导致废物形式和废物包的腐蚀,并可能导致放射性核素的溶解,而盐水迁移则是可进入环境的潜在迁移媒介。第 0 步包括匹配来自废物隔离试验厂 (WIPP) 钻孔的未加热盐水流入数据,以及匹配盐中盐水可用性测试 (BATS) 加热器测试期间的温度观测数据。第 1 步包括根据热弹性分析解决方案对模型进行验证,以及对挖掘机周围的两相流进行验证。最后,第 2 步要求将第 0 步和第 1 步中涉及的所有单个部分结合起来,以匹配在同一 BATS 加热器测试中观察到的盐水流入行为。考虑到问题的不确定性,一些小组使用了一维或二维过程模型,而其他小组则在三维模型中加入了更多几何复杂性。任务 E 是相关团队的一次学习经历,建模团队的反馈意见导致了 WIPP 后续 BATS 实验的改变。任务 E 的主要经验教训是水文初始化方法(湿润与干燥)的影响、封闭热膨胀与非封闭热膨胀之间的差异,以及与加热和冷却相关的渗透性的巨大变化。
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来源期刊
Geomechanics for Energy and the Environment
Geomechanics for Energy and the Environment Earth and Planetary Sciences-Geotechnical Engineering and Engineering Geology
CiteScore
5.90
自引率
11.80%
发文量
87
期刊介绍: The aim of the Journal is to publish research results of the highest quality and of lasting importance on the subject of geomechanics, with the focus on applications to geological energy production and storage, and the interaction of soils and rocks with the natural and engineered environment. Special attention is given to concepts and developments of new energy geotechnologies that comprise intrinsic mechanisms protecting the environment against a potential engineering induced damage, hence warranting sustainable usage of energy resources. The scope of the journal is broad, including fundamental concepts in geomechanics and mechanics of porous media, the experiments and analysis of novel phenomena and applications. Of special interest are issues resulting from coupling of particular physics, chemistry and biology of external forcings, as well as of pore fluid/gas and minerals to the solid mechanics of the medium skeleton and pore fluid mechanics. The multi-scale and inter-scale interactions between the phenomena and the behavior representations are also of particular interest. Contributions to general theoretical approach to these issues, but of potential reference to geomechanics in its context of energy and the environment are also most welcome.
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