Mechanism and numerical simulation of a rapid deep-seated landslide in Van Hoi reservoir, Vietnam

IF 2.4 Q2 GEOSCIENCES, MULTIDISCIPLINARY VIETNAM JOURNAL OF EARTH SCIENCES Pub Date : 2023-07-17 DOI:10.15625/2615-9783/18539
Tien Pham Van, Luong Le Hong, Nhan Tran Thanh, Phi Nguyen Quoc, Trinh Phan Trong, Quynh Dinh Thi, Duc Dao Minh, Lan Nguyen Chau, Cuong Nguyen Hai
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Abstract

At approximately 5:00 AM on December 16, 2016, a rapid and deep-seated landslide was triggered by intense rainfall in the Van Hoi irrigation reservoir in Binh Dinh province, Vietnam. The landslide generated an impulsive wave with a height of approximately 20 m, resulting in severe damage to the reservoir operation station. This study investigated the mechanisms behind the landslide's initiation and simulated its initiation and motion processes through site surveys, ring shear tests, and the LS-RAPID simulation model. The physical tests were conducted on two soil samples from the sliding zone to examine the landslide mechanism. The results indicated that only sample 2 (a sand sample of completely weathered gneiss rock) showed a high level of landslide mobility due to its liquefaction phenomena resulting in a rapid pore water pressure development and a significant strength loss. In contrast, sample 1 (a silty sand sample of residual soils) did not exhibit this behavior due to its high shear resistance value at a steady state. The findings suggest that the sliding plane of the Van Hoi landslide formed in the completely weathered gneiss layer, and the high mobility level of sample 2 is primarily responsible for its rapid movement. Notably, the LS-RAPID model successfully reproduced the landslide process using the geotechnical properties obtained in the ring shear experiments. The simulation showed that the Van Hoi deep-seated landslide was initiated from the lower middle slope at a critical value of 0.55 for the pore water pressure ratio and traveled at a high velocity of approximately 37.0 m/s. The consistency between the computer simulation results and the on-site evidence and recorded data highlights the reliability of the LS-RAPID model as a tool for assessing landslide hazards.
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越南文海水库深层快速滑坡机理及数值模拟
2016年12月16日凌晨5点左右,越南平定省文海灌溉水库因强降雨引发快速深层滑坡。滑坡产生高度约20m的冲击波,对水库调度站造成严重破坏。本研究通过现场调查、环剪试验和LS-RAPID模拟模型,研究了滑坡发生的机制,并模拟了滑坡的发生和运动过程。对滑坡带的两个土样进行了物理测试,以检验滑坡机理。结果表明,只有样品2(全风化片麻岩的砂样品)由于其液化现象而显示出高水平的滑坡活动性,导致孔隙水压力快速发展和显著的强度损失。相反,样品1(残余土的粉砂样品)由于其在稳定状态下的高抗剪值而没有表现出这种行为。研究结果表明,Van Hoi滑坡的滑动面形成于全风化片麻岩层中,样品2的高流动性水平是其快速移动的主要原因。值得注意的是,LS-RAPID模型利用环剪实验中获得的岩土特性成功地再现了滑坡过程。模拟表明,Van Hoi深层滑坡以孔隙水压力比为0.55的临界值从中下斜坡开始,并以约37.0 m/s的高速移动。计算机模拟结果与现场证据和记录数据之间的一致性突出了LS-RAPID模型作为评估滑坡灾害工具的可靠性。
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来源期刊
VIETNAM JOURNAL OF EARTH SCIENCES
VIETNAM JOURNAL OF EARTH SCIENCES GEOSCIENCES, MULTIDISCIPLINARY-
CiteScore
3.60
自引率
20.00%
发文量
0
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