Practical prediction method on frost heave of soft clay in artificial ground freezing with field experiment

The artificial ground-freezing method has the dual effect of ground reinforcement and waterproof sealing, and the frozen curtain can be designed flexibly. It is widely used in the construction of cross passages for shield tunnels in soft ground with high groundwater levels. However, due to the lack of in situ monitoring data, it remains difficult to determine the frost heave pressure acting upon a tunnel. In this study, based on the use of an anti-freezing pad-type earth pressure gauge, in situ monitoring was carried out to measure the frost heave pressure acting upon tunnel segments during the construction of cross passages for the Shanghai Yangtze River Tunnel. The monitoring results show that the earth pressure acting upon the tunnel could decrease dramatically during freezing, and this kind of decrease can take place suddenly and unpredictably, which can be illustrated using the finite element method. The maximum measured frost heave pressure during freezing and cross passage excavation was approximately 0.2 MPa, which was much smaller than the predicted value. Combining the distribution of temperature in the ground and construction countermeasures, the observed phenomena are mainly related to three factors: water migration during the freezing process, the tunnel–ground interaction, and the countermeasure of pressure release holes. The tunnel showed a horizontal extension–deformation, which was consistent with the releasing frost heave pressure acting upon it.

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Field experiment on freezing rate of marine clay by artificial ground freezing method

Tunnels and Underground Cities: Engineering and Innovation meet Archaeology, Architecture and Art ◽

10.1201/9781003031628-6 ◽

2020 ◽

pp. 1304-1313

Author(s):

H-J. Choi ◽

D. Lee ◽

H. Lee ◽

H. Choi ◽

Y.-J. Son

Keyword(s):

Field Experiment ◽

Freezing Rate ◽

Marine Clay ◽

Freezing Method ◽

Ground Freezing ◽

Artificial Ground Freezing

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Properties of Frozen Soils for Cross Passage Construction in Line 1 and 2 of Wuxi Metro

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.353-356.1662 ◽

2013 ◽

Vol 353-356 ◽

pp. 1662-1665 ◽

Cited By ~ 1

Author(s):

Xiang Dong Hu ◽

Yan Guang Han

Keyword(s):

Mechanical Properties ◽

Laboratory Tests ◽

Freezing Point ◽

Frozen Soil ◽

Frost Heave ◽

Soil Test ◽

Frozen Soils ◽

Freezing Method ◽

Ground Freezing ◽

Artificial Ground Freezing

Artificial ground freezing method (AGF) was applied in cross passage constructing of line 1 and 2 of Wuxi Metro. Mechanical properties of frozen soils such as uniaxial compressive strength, modulus of elasticity, Poissons Ratio, frost heave rate and freezing point are prerequisite for design and construction of AGF. In order to obtain the parameters mentioned, laboratory tests were conducted. One was the basic geotechnical test. Another was the frozen soil test.

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Practical model of deformation prediction in soft clay after artificial ground freezing under subway low-level cyclic loading

Tunnelling and Underground Space Technology ◽

10.1016/j.tust.2018.03.003 ◽

2018 ◽

Vol 76 ◽

pp. 30-42 ◽

Cited By ~ 9

Author(s):

Jie Zhou ◽

Yiqun Tang

Keyword(s):

Cyclic Loading ◽

Soft Clay ◽

Deformation Prediction ◽

Low Level ◽

Ground Freezing ◽

Artificial Ground Freezing ◽

Practical Model

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Analysis of Ground Movement during Large-Scale Pipe Roof Installation and Artificial Ground Freezing of Gongbei Tunnel

Advances in Civil Engineering ◽

10.1155/2021/8891600 ◽

2021 ◽

Vol 2021 ◽

pp. 1-15

Author(s):

Xiao-qi Zhou ◽

Jian-li Pan ◽

Yang Liu ◽

Cai-cheng Yu

Keyword(s):

Large Scale ◽

Volume Ratio ◽

Frozen Soil ◽

Ground Movement ◽

Frost Heave ◽

Ground Settlement ◽

Soil Thickness ◽

Ground Freezing ◽

Artificial Ground Freezing ◽

Ground Heave

This paper analyzes the vertical ground movement during large-scale pipe roof installation and artificial ground freezing of Gongbei tunnel of the Hong Kong-Zhuhai-Macau bridge project. The transverse ground settlement during pipe roof installation is analyzed. The ground loss volume ratio and settlement trough width coefficient during pipe jacking are estimated based on the field measurement of ground settlement. The interaction of pipes during multiple jacking is investigated. The effect of frost heave control by pregrouting, limiting frozen soil thickness, and combination of the two methods is evaluated. The analysis shows that the ground settlement during pipe roof installation by jacking 37 pieces of 1620 mm steel pipes is relatively small with a maximum value of 2.2 cm. The reinforcement to ground provided by the fore-jacked pipes reduces the ground loss volume ratio and, consequently, the ground settlement during the follow-up pipe jacking. The artificial ground freezing generates a relatively large ground heave with a maximum value of 7.8 cm. Pregrouting plays a critical role in the frost heave control by reducing the heave by about 33%. Limiting the frozen soil thickness by heating pipes serves as an effective supplement to frost heave control by reducing the heave by about 9%. The combination of the two measures reduces the ground heave by about 42%. Findings from this paper provide valuable reference to the tunnel construction using pipe roof and artificial ground freezing as presupport.

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