Numerical assessment of the time-dependent behaviour of a tunnel with a yielding support system for a potential repository in claystone

IF 3.3 2区 工程技术 Q3 ENERGY & FUELS
Miguel A. Mánica , Eric Simo , Antonio Gens , Philipp Herold , Thomas Nagel , Efraín Ovando , David Seidel
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Abstract

For the disposal of heat-generating radioactive waste and spent fuel in claystone formations, support structures for underground excavations are essential for the operational safety of geological disposal facilities (GDF). Claystone formations of moderate strength, at considerable depths, are characterised by their squeezing, creeping, and, sometimes, swelling behaviour that results in continuous tunnel convergence over time. Under these conditions, a rigid support system can be subjected to very high loads, requiring a considerable thickness and/or high-performance concretes. Therefore, yielding support systems are being currently investigated as a promising alternative for GDF. This work presents a numerical study of the behaviour of a tunnel in a claystone formation with a yielding support system. The use of a compressible mortar between the rock and the lining is assumed, as a means of reducing loads and mitigating the effects of creep deformations. A key aspect of the analyses is that the host rock is characterised by a constitutive model that includes a number of features that are relevant for the satisfactory description of the hydro-mechanical behaviour of stiff clayey materials, such as mechanical anisotropy, creep, strain softening, and its ability to simulate localised deformations through a nonlocal regularisation. An elastoplastic constitutive model was also developed to represent the behaviour of the compressible mortar. Results provide relevant insights into the performance of the adopted yielding support system, particularly regarding the effect of time-dependent deformations and the additional relaxation of the rock on the fractured zone near the excavation.

对潜在的粘土岩储存库中带有屈服支撑系统的隧道随时间变化的行为进行数值评估
要在粘土岩层中处置产生热量的放射性废料和乏燃料,地下挖掘的支撑结构对地质处置设施(GDF)的运行安全至关重要。强度适中、深度较大的粘土岩层的特点是挤压、蠕变,有时还会膨胀,从而导致隧道随着时间的推移不断收敛。在这种情况下,刚性支撑系统可能会承受非常大的荷载,需要相当大的厚度和/或高性能的混凝土。因此,目前正在研究屈服支撑系统,将其作为 GDF 的一种有前途的替代方案。本研究对采用屈服支撑系统的粘土岩层隧道的行为进行了数值研究。假定在岩石和衬砌之间使用可压缩砂浆,以此来降低荷载并减轻蠕变变形的影响。分析的一个关键方面是,主岩的特征由一个构造模型来描述,该模型包含一系列与令人满意地描述坚硬粘土材料的水文机械行为相关的特征,如机械各向异性、蠕变、应变软化,以及通过非局部正则化模拟局部变形的能力。此外,还开发了一个弹塑性结构模型来表示可压缩砂浆的行为。研究结果为所采用的屈服支撑系统的性能提供了相关的见解,特别是关于随时间变化的变形以及开挖附近断裂带岩石的额外松弛的影响。
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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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