矿井人工冻结耦合THM模型的简化可能性

IF 0.1 Q4 GEOSCIENCES, MULTIDISCIPLINARY

Proceedings of the Tula States University-Sciences of Earth Pub Date : 2021-01-01 DOI:10.46689/2218-5194-2021-4-1-453-463

M. Semin

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引用次数: 0

摘要

在矿井(和其他地下结构)施工过程中，人工冻结设计的一个重要阶段是模拟被冻结介质的变形和传热。这对于计算所需的冻结壁厚度、冻结壁形成时间和冻结站参数是必要的。如果不分析土壤冻结过程中发生的各种物理过程的意义和耦合性，就不可能选择适当的数学模型。这样的分析允许在模型中选择合理程度的物理过程细节:考虑所有重要因素，忽略其他因素。本文提出了一种分析这些物理过程的意义和耦合的方法。为此，建立了土壤冻结的一般热-水-力学模型，识别并分类了一组确定各种物理过程之间关系的无量纲复合体。只有当相应的无量纲复合体很小时，才有可能从一般的热-水-力学模型过渡到更简单的模型。

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SIMPLIFICATION POSSIBILITIES FOR COUPLED THM MODELS OF ARTIFICIAL GROUND FREEZING IN THE CONSTRUCTION OF MINE SHAFTS

An important stage in the design of the artificial ground freezing during the construc-tion of mine shafts (and other underground structures) is the simulation of deformation and heat transfer in the media to be frozen. This is necessary to calculate the required thicknesses of frozen wall, the time of its formation and the parameters of freezing stations. The choice of an adequate mathematical model is impossible without analyzing the significance and coupling of various physical processes occurring during the freezing of soil. Such an analysis allows se-lecting a reasonable degree of detailing of physical processes in the model: take into account all important factors and neglect the rest. This article proposes a methodology for analyzing the significance and coupling of such physical processes. For this, a general thermo-hydro-mechanical model of soil freezing has been formulated, a set of dimensionless complexes has been identified and classified, which determine the relationship between various physical pro-cesses. The transition from the general thermo-hydro-mechanical model to simpler models is possible only if the corresponding dimensionless complexes are small.

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Proceedings of the Tula States University-Sciences of Earth GEOSCIENCES, MULTIDISCIPLINARY-

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