Analysis of Instability Mechanism and Induced Cause of Urban Pavement in Xining City, China

Gan, Qi; Wang, Zhenyu; Chen, Yu; Zhu, Chun; Ren, Dazhong; Tian, Tian; Fu, Yang

doi:10.1155/2022/3365402

Cited by 8 publications

(2 citation statements)

References 12 publications

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“…Cao et al [10], through numerical modeling, used a wetting front model to describe moisture infiltration in the soil. Qi et al [11], using a Fluent and PFC coupled approach, investigated the variation of underground cavities following pipeline rupture, while Tang et al [12] utilized the discrete element method to explore the erosion phenomenon caused by sewage pipelines on the surrounding soil. Zhou et al [13] employed a CFD and DEM coupled approach to analyze the loss process of underground soil layers under the influence of water flow.…”

Section: Introductionmentioning

confidence: 99%

Effects of Internal Pressure on Urban Water Supply Pipeline Leakage-Induced Soil Subsidence Mechanisms

Cui,

Liu,

Chen

et al. 2024

Geofluids

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After the rupture of pressurized water supply pipes in urban underground areas, seepage-induced ground subsidence becomes a severe geological hazard. Understanding the permeation and diffusion patterns of water in soil is crucial for deciphering the mechanisms underlying soil settlement and damage. Notably, the pressure within water supply pipes significantly influences the settlement and damage of the soil. Therefore, this study simulated experiments on soil settlement and damage caused by water seepage from a preexisting damaged pipeline under various internal pipe pressure conditions using an indoor model apparatus. The results indicate that the internal pressure of the pipe significantly influences the settlement of the soil. High-pressure seepage causes noticeable erosion in the soil, forming cavities within it. In contrast, low-pressure seepage results in water diffusing in an ellipsoidal pattern, leading to the formation of circular surface cracks. The degree of surface settlement increases with higher pipe pressure. The onset of subsidence at a specific point on the ground is not directly related to whether the moistening front within the soil has reached that point horizontally. Instead, it is associated with the moisture content below the subsidence point within the soil. The research results further illustrate the water diffusion and moisture content increase processes after water seepage from pipes with different pressures, revealing the influence of pipe pressure on the degree and form of soil settlement damage and clarifying the relationship between water diffusion and settlement in the soil.

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Section: Introductionmentioning

confidence: 99%

Effects of Internal Pressure on Urban Water Supply Pipeline Leakage-Induced Soil Subsidence Mechanisms

Cui,

Liu,

Chen

et al. 2024

Geofluids

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“…They successfully predicted the continuous erosion of soil processes caused by water flow. Qi et al [10] employed Fluent and PFC methods for simulating and calculating the formation process of underground cavities. Their findings indicate that water supply pipe breakage has a significant impact on ground collapse.…”

Section: Introductionmentioning

confidence: 99%

Study on the Influence of Urban Water Supply Pipeline Leakage on the Scouring Failure Law of Cohesive Soil Subgrade

Mao,

Wang,

Zhang

et al. 2023

Water

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Urban water supply pipelines serve as vital lifelines for urban operations. However, the occurrence of underground pipeline leakage, caused by various factors, results in significant water loss and gives rise to safety hazards such as pavement collapse due to the erosive action of leaking water on the overlying soil. To conduct a more comprehensive investigation into the erosion characteristics of the leaking jet on the soil, this study employed a custom-built soil-test system to investigate the erosive effects of leakage from the water supply pipe network on the clay roadbed above. The study considered water flow rate, leakage port size, and leakage angle as influential factors. The experimental results demonstrated that reducing the water flow rate significantly enhances the soil’s erosion resistance. There is a positive correlation between the caliber of pipe leakage, pipe diameter, and the erosion rate of the soil cavity. Under identical conditions, the erosion rate of the specimen increased consistently with an increase in the leakage port angle. The study also investigated and summarized the curve depicting the formation of soil cavities. The aforementioned findings offer valuable insights for the implementation of reinforcement measures using fine-grained cohesive soil backfill in urban water supply pipelines.

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Research on pavement cracking possibility based on the load mechanical response

Wang,

Li,

Liu

et al. 2023

Sci. China Technol. Sci.

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Analysis of Instability Mechanism and Induced Cause of Urban Pavement in Xining City, China

Cited by 8 publications

References 12 publications

Effects of Internal Pressure on Urban Water Supply Pipeline Leakage-Induced Soil Subsidence Mechanisms

Effects of Internal Pressure on Urban Water Supply Pipeline Leakage-Induced Soil Subsidence Mechanisms

Study on the Influence of Urban Water Supply Pipeline Leakage on the Scouring Failure Law of Cohesive Soil Subgrade

Research on pavement cracking possibility based on the load mechanical response

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