灯塔:膨润土力学演化

IF 0.9 Q3 NUCLEAR SCIENCE & TECHNOLOGY

EPJ Nuclear Sciences & Technologies Pub Date : 2020-05-01 DOI:10.1051/epjn/2019045

P. Sellin, M. Westermark, O. Leupin, S. Norris, A. Gens, K. Wieczorek, J. Talandier, J. Swahn

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引用次数: 11

摘要

Beacon的目的是发展对导致材料均匀化的基本过程的理解，并提高数值建模的能力。在对膨润土EBS的早期评估中，已安装的膨润土组件之间的机械相互作用被忽略，通常假设为“理想”的最终状态。该项目的主要特点是（1）重新评估现有知识，提取关键数据，汇编定性和定量数据，并增强概念理解。（2）基于良好的科学理解，增强、稳健和实用的数字工具，对工程屏障和密封的演变具有预期的预测能力。（3）一个已开发的数据库，包含定量模型所需的实验数据。（4）基于不同尺度的实验结果验证了计算工具。Beacon项目是实现泛欧目标所必需的，目的是在监管机构和利益相关者之间建立对地质储存库中工程屏障性能的信心。

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Beacon: bentonite mechanical evolution

The aim of Beacon is to develop the understanding of fundamental processes that lead to material homogenisation, as well as to improve capabilities for numerical modelling. In earlier assessments of bentonite EBS, the mechanical interaction between the installed bentonite components has been neglected and an “ideal” final state has generally been assumed. Key features of the project are (1) re-evaluation of the available knowledge to extract the crucial data to compile the qualitative and quantitative data and to enhance the conceptual understanding. (2) Enhanced, robust and practical numerical tools based on a good scientific understanding, which have the expected predictive capabilities regarding the evolution of engineered barriers and seals. (3) A developed database with experimental data needed by the quantitative models. (4) Verified calculation tools based on experimental results in different scales. The Beacon project is required for the pan-European objectives at building confidence amongst regulators and stakeholders regarding the performance of the engineered barriers in a geological repository.

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来源期刊

EPJ Nuclear Sciences & Technologies NUCLEAR SCIENCE & TECHNOLOGY-

CiteScore

1.00

自引率

20.00%

发文量

审稿时长

10 weeks