Analysis of the causes of engineering structures deformations at gas industry facilities in the permafrost zone

IF 2.4 Q2 MINING & MINERAL PROCESSING Journal of Mining Institute Pub Date : 2021-09-20 DOI:10.31897/pmi.2021.3.6
G. Vasiliev, A. Dzhaljabov, I. Leonovich
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引用次数: 9

Abstract

Construction of oil and gas infrastructure facilities on permafrost soils is the most important task of increasing the raw material base of the entire fuel and energy industry in Russia. Permafrost soil is a complex, multicomponent system, state of which depends on many factors. Buildings and structures built under such conditions, on the one hand, have a complex thermal effect on permafrost soils, and on the other hand, they perceive the consequences of changes in the characteristics of such soils. This situation leads to the fact that buildings and structures on permafrost soil during their life cycle are subject to complex and poorly predictable deformations. Article presents the results of a study for various degradation processes of permafrost soils that can be implemented at construction sites of industrial facilities. Analysis of the deformations causes for engineering structures at the gas industry in the permafrost zone is carried out. Series of reasons causing such deformations have been investigated. Comprehensive criterion for assessing changes in permafrost-geological conditions of industrial sites is proposed. It is suggested to apply the method of calculating the individual characteristics for the temperature regime of the territory to monitor and assess the conditions of heat exchange and predict changes in the geocryological conditions of permafrost soil.
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多年冻土区天然气工业设施工程结构变形原因分析
在永久冻土上建设油气基础设施是增加俄罗斯整个燃料和能源工业原料基础的最重要任务。多年冻土是一个复杂的多组分系统,其状态受多种因素的影响。在这种条件下建造的建筑物和构筑物,一方面对永久冻土具有复杂的热效应,另一方面,它们感知到这种土壤特性变化的后果。这种情况导致永久冻土上的建筑物和构筑物在其生命周期内受到复杂且难以预测的变形的影响。本文介绍了可在工业设施施工现场实施的多年冻土各种退化过程的研究结果。对多年冻土带天然气工业工程结构的变形原因进行了分析。研究了引起这种变形的一系列原因。提出了工业用地冻土地质条件变化的综合评价标准。建议采用计算区域温度状况个体特征的方法来监测和评价多年冻土土壤的热交换条件,并预测冻土条件的变化。
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来源期刊
Journal of Mining Institute
Journal of Mining Institute MINING & MINERAL PROCESSING-
CiteScore
7.50
自引率
25.00%
发文量
62
审稿时长
8 weeks
期刊最新文献
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