permafrost regions
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2022 ◽  
Vol 2022 ◽  
pp. 1-12
Author(s):  
Honglei Wang ◽  
Hu Zhang ◽  
Mingtang Chai ◽  
Jianming Zhang ◽  
Zhizhong Sun ◽  
...  

Characterized by low bearing capacity and high compressibility, warm and ice-rich frozen soil is a kind of problematic soil, which makes the original frozen ground formed by of that unreliable to meet the stability requirements of engineering infrastructures and foundations in permafrost regions. With the design and construction of major projects along the Qinghai-Tibet Engineering Corridor (QTEC), such as expressway and airport runway, it is a great challenge to favor the stability of overlying structures by formulating the proper engineering design principles and developing the valid engineering supporting techniques. The investigations carried out in recent years indicated that warm and ice-rich permafrost foundations were widespread, climate warming was significant, and the stability of existing engineering structures was poor, along the QTEC. When the warm and ice-rich frozen ground is used as the foundation soil, the implementation of ground improvement is an alternative measure to enhance the bearing capacity of foundation soil and eliminate the settlement of structures during operation, in order to guarantee the long-term stability of the structures. Based on the key factors determining the physicomechanical properties of frozen soil, an innovative idea of stabilizing the warm and ice-rich frozen soil based on chemical stabilization is proposed in this study, and then, an in situ ground improvement technique is introduced. This study intends to explore the feasibility of ground improvement in warm and ice-rich permafrost regions along the QTEC based on in situ chemical stabilization and provide the technical support and scientific reference to prevent and mitigate the hazards in the construction of major projects in the future.


Geofluids ◽  
2022 ◽  
Vol 2022 ◽  
pp. 1-19
Author(s):  
Deren Liu ◽  
Jiale Yang ◽  
Xu Wang ◽  
Junming Zhao ◽  
Shuochang Xu ◽  
...  

In permafrost regions, long distance buried pipelines are widely used to transport oil and natural gas resources. However, pipeline problems occur frequently due to the complicated surrounding environment and transportation requirement of positive temperature. In this study, a thermal insulation layer was applied to mitigate permafrost degeneration around the buried oil-gas pipelines. Based on engineering background of the Sebei-Xining-Lanzhou natural gas pipeline in China, an indoor model test was designed and carried out in which many key indices, such as the temperature regime, vertical displacement, pipeline wall stress, and water content, were closely monitored. The test results indicate that the large heat loss of the buried pipeline produces a rapid increase in ground temperatures which seriously reduces the bearing capacity of the permafrost foundation. The buried oil-gas pipelines with a thermal insulation layer can effectively reduce the thawing range and vertical displacement of the permafrost foundation around the buried pipelines, so as to control the stress of the pipeline wall in the normal range and protect the safe and stable operation of the buried oil-gas pipelines. The experimental results can serve as a reference for the construction, operation, and maintenance of buried oil-gas pipelines in permafrost regions.


2022 ◽  
Vol 3 (1) ◽  
pp. 85-98 ◽  
Author(s):  
Benjamin M. Jones ◽  
Guido Grosse ◽  
Louise M. Farquharson ◽  
Pascale Roy-Léveillée ◽  
Alexandra Veremeeva ◽  
...  

Energy ◽  
2022 ◽  
pp. 123194
Author(s):  
Qinguo Ma ◽  
Xiaoxiao Luo ◽  
Jianqiang Gao ◽  
Weiyu Sun ◽  
Yongdong Li ◽  
...  

2022 ◽  
Vol 39 (1) ◽  
pp. 189-200
Author(s):  
Junjie Ma ◽  
Ren Li ◽  
Hongchao Liu ◽  
Zhongwei Huang ◽  
Tonghua Wu ◽  
...  

2022 ◽  
Vol 130 (2) ◽  
pp. 1093-1112
Author(s):  
Xiaolan Liu ◽  
Yixiang Chen ◽  
Yan Zhou ◽  
Kai Zhang

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