膨润土屏障模拟中关键热耦合因素分析

Japanese Geotechnical Society Special Publication Pub Date : 2021-10-12 DOI:10.3208/jgssp.v09.cpeg148

A. Gupta, A. Abed, W. Sołowski

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引用次数: 0

摘要

膨润土是一种被认为用作深层地质核废料储存库屏障的材料。它的行为受温度、湿度和使其孔隙饱和的水的化学成分的影响。在这种热-水-机械(THM)条件下再现膨润土的行为涉及广泛使用经验和物理耦合关系。本文研究了影响膨润土THM实验中性能的相关参数与储存库条件的关系。在本研究中，基于有限元代码Thebes (Abed和Sołowski 2017)计算的试验模拟进行了数值研究。Abed和Sołowski(2017)对非等温渗透实验(Villar and Gomez-Espina 2009)的数值模拟作为研究的基础。将此模拟结果与一系列其他7个模拟结果进行了比较，这些模拟是通过一次一个地停用选定的热耦合变量而建立的。给出的结果确定了模拟敏感的关键参数，并提供了对潜在耦合过程相关性的见解。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Analysis of key thermal coupled factors in modelling of bentonite barriers

Bentonite is a material considered to be used as a component of a barrier in deep geological repositories for nuclear waste. Its behaviour is affected by temperature, humidity and chemical composition of water saturating its pores. Reproduction of bentonite behaviour in such thermo-hydro-mechanical (THM) conditions involves extensive use of empirical and physical coupled relationships. This paper investigates parameters, which influence the bentonite behaviour in THM experiments relevant to the conditions in the repositories. For the study, a numerical investigation is performed based on test simulation computed with the finite element code Thebes (Abed and Sołowski 2017). A numerical simulation by Abed and Sołowski (2017) of a non-isothermal infiltration experiment (Villar and Gomez-Espina 2009) has been taken as a basis for the investigation. The results of this simulation were compared with a series of 7 other simulations that are set up by inactivating the selected thermally coupled variables, one at a time. Presented results identify the key parameters the simulation is sensitive to and provide insights on the relevance of the underlying coupled processes.

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Japanese Geotechnical Society Special Publication

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