Extensible cloud evaluation on thaw-settlement grade of foundation soil of crude oil pipeline in permafrost regions

Global warming has intensified the degradation of permafrost, and the thaw settlement of frozen soil can seriously threaten the safe operation of pipelines. Hence, it is very important to accurately evaluate the thaw settlement risk level of pipeline foundation soil. Herein, the four important facto...

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Bibliographic Details
Main Authors: WANG Wei, MA Pengda, GAO Jian, YU Huahai
Format: Article in Journal/Newspaper
Language:Chinese
Published: Editorial Office of Oil & Gas Storage and Transportation 2022
Subjects:
crude oil pipeline
permafrost
thaw-settlement coefficient
superplastic moisture content
k-means clustering
entropy-extensible cloud model
Oils
fats
and waxes
TP670-699
Gas industry
TP751-762
Ice
Online Access:https://doi.org/10.6047/j.issn.1000-8241.2022.12.007
https://doaj.org/article/51a3458def9146a5bf939a1a41e46353
Description
Summary:Global warming has intensified the degradation of permafrost, and the thaw settlement of frozen soil can seriously threaten the safe operation of pipelines. Hence, it is very important to accurately evaluate the thaw settlement risk level of pipeline foundation soil. Herein, the four important factors influencing the thaw settlement, i.e., moisture content, void ratio, ice content and superplastic moisture content, were selected and weighted objectively by the entropy method, and on this basis, the thaw-settlement grade of pipeline foundation soil in permafrost regions was evaluated with the extensible cloud model. Through the practical application of the evaluation model in Mohe–Daqing section of China–Russia Crude Oil Pipeline, the results show that, in current standards, there are no sufficient indicators for evaluating pipe foundation soil,the limit moisture content is too large, and the boundary of thaw-settlement grade in k-means evaluation is not very clear.Instead, the entropy-extensible cloud model could avoid the blurring of the thaw settlement indicators and the uncertainty among the influencing factors, so that the evaluation results are more consistent with the actual situation. Therefore, this study could provide a scientific basis and theoretical reference for the protection against thaw settlement during the design and operation management of pipeline in permafrost regions.

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