Numerical Investigation of Impact Characteristics of Rigid Retaining Wall for Blocking Landslides: A Case Study of the Shum Wan Road Landslide

Fan, Yunyun; Zhang, Feng; Ying, Liu; Ma, Dongyang

doi:10.1155/2022/7835780

Geofluids

2022

DOI: 10.1155/2022/7835780

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Numerical Investigation of Impact Characteristics of Rigid Retaining Wall for Blocking Landslides: A Case Study of the Shum Wan Road Landslide

Yunyun Fan

Feng Zhang

Liu Ying

et al.

Abstract: Landslides pose a serious threat to the downstream infrastructure and personnel safety. For situations where the location of possible landslides is difficult to determine, or the potential landslides areas are widely distributed and scattered, passive protective structural measures need to be adopted to relieve the threat of landslides. Taking the Shum Wan Road landslide as an example, the discrete element method was used to reproduce and analyze the landslide movement. On this basis, this study conducts a fur… Show more

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2024

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Cited by 2 publications

References 46 publications

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Experimental and numerical investigations of secondary granular flow

Wang,

Liu,

Fan

et al. 2024

Earth Surf Processes Landf

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Among the geological disasters in the form of granular flow, the secondary slide mass is often neglected, potentially leading to unexpected losses. Results indicate that under conditions of a certain sliding total mass, the secondary granular flow in the deposition area is significantly influenced by pre‐formed deposits when tested in a flow flume. When the initial sliding mass is small and the mass ratio of two slides is less than 12.5%, the secondary sliding mass expands the runout distance, thereby increasing potential harm. To elucidate the interaction between the secondary sliding mass and the previously formed deposition, DEM (the discrete element method) was employed based on experimental tests.. The numerical results show that the previous deposition effectively blocks the secondary granular flow. When the initial sliding mass is small, the front edge of the second slide may overtop the previous deposition, extending the runout distance by impact, extrusion, and pushing. The DEM proves to be a reliable and effective tool for studying the secondary granular flow, revealing complex phenomena and processes that complement experimental research. This study provides valuable references for a more in‐depth understanding of multi‐phase continuous disaster processes.

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Experimental and numerical investigations of secondary granular flow

Wang,

Liu,

Fan

et al. 2024

Earth Surf Processes Landf

View full text Add to dashboard Cite

show abstract

Effect of geometric obstructions, particle size distribution, and release angle on the mobility and deposit distribution along the runout zone of rock avalanches

Gardezi,

Li,

Huang

2024

Bull Eng Geol Environ

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This study determined the effect of various geometric obstructions, particle size distribution (coarse, fine, and uniform), and release angles (40°, 50°, and 60°) on the mobility and deposit distribution along the obstructions (concave and convex) in the runout zone of rock avalanches using Discrete Element Modelling, with which particle-particle and particle-wall interactions can be naturally captured. The results indicate that the convex and concave obstructions for coarse gradation at a release angle of 40° reduced the mobility of the slide by 40% and 33% and increased the duration of the slide by 20% and 18% compared to plain geometry, and similar behaviour was observed for uniform and fine graded particles. In addition, as the release angle increases, the velocity increases and the duration of the slide decreases for all types of gradations and geometric obstructions. Moreover, the particles get airborne after hitting the convex obstruction, whereas for concave obstruction, particles move in the form of an anticlockwise whirlpool inside the obstruction and try to escape from the upstream edge. The airborne characteristics such as jump distance, airborne time, and maximum jump height of particles greatly vary with the release angle. In comparison, the escape velocity of particles from a whirlpool is not influenced by gradation or release angle. Furthermore, the deposition of particles along the obstruction is different from that in the valley and is greatly influenced by the release angle. The study will help understand the interaction of sliding material with natural obstructions in the runout zone by considering various particle sizes and release angles.

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Numerical Investigation of Impact Characteristics of Rigid Retaining Wall for Blocking Landslides: A Case Study of the Shum Wan Road Landslide

Cited by 2 publications

References 46 publications

Experimental and numerical investigations of secondary granular flow

Experimental and numerical investigations of secondary granular flow

Effect of geometric obstructions, particle size distribution, and release angle on the mobility and deposit distribution along the runout zone of rock avalanches

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