Analysis of landslide kinematics integrating weather and geotechnical monitoring data at Tan Son slow moving landslide in Ha Giang province

IF 2.4 Q2 GEOSCIENCES, MULTIDISCIPLINARY VIETNAM JOURNAL OF EARTH SCIENCES Pub Date : 2023-03-30 DOI:10.15625/2615-9783/18204
Duc Dao Minh, Minh Vu Cao, Yen Hoang Hai, Loc Nguyen The, Duc Do Minh
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Abstract

Rainfall infiltration on the slope increases pore-water pressure in the soil/ rock mass and may cause landslides. Therefore, the precipitation, pore-water pressure and displacement show the kinematic variation of a landslide. In recent years, several approaches have been proposed to investigate the kinematic behavior. Among them, the combination of time series data and geotechnical model has demonstrated its effectiveness in stage classification of landslide kinematics. This paper aims to analyze and classify the stages of landslide kinematic variation with integrating weather and geotechnical monitoring data of Tan Son market landslides. The real-time monitoring station for Tan Son slow-moving landslides were equipped with fixed-in-place inclinometer probes and standard pore-water pressure sensors. The results show that landslide kinematics consist of three stages: stabilization, accumulation, and displacement. The displacement of the landslides was heterogeneous process. The velocity of the landslides significantly increased when the pore-water pressure ratio (ru) at the sliding surfaces > 0.53. While it is almost impossible to notice any displacement when the ratio r­u < 0.45. During the displacement state, the trend of inverse velocity variation gradually decreases to near zero hour/mm. In addition, early warnings of landslide can be released based on the kinematic stages and changes in inverse velocity in this study.
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结合天气和岩土工程监测数据对江省Tan Son缓慢移动滑坡的运动学分析
斜坡上的降雨渗透增加了土壤/岩体中的孔隙水压力,并可能导致滑坡。因此,降水、孔隙水压力和位移显示了滑坡的运动变化。近年来,已经提出了几种方法来研究运动学行为。其中,将时间序列数据与岩土模型相结合,证明了其在滑坡运动学阶段分类中的有效性。本文旨在结合Tan Son市场滑坡的天气和岩土监测数据,对滑坡运动变化的阶段进行分析和分类。Tan Son慢速滑坡实时监测站配备了固定式测斜探头和标准孔隙水压力传感器。研究结果表明,滑坡运动学分为稳定、堆积和位移三个阶段。滑坡的位移是一个非均匀的过程。当滑动面孔隙水压力比(ru)>0.53时,滑坡速度显著增加。而当比值r­u<0.45时,几乎不可能注意到任何位移。在位移状态下,速度反向变化的趋势逐渐减小到接近零时/mm。此外,本研究还可以根据滑坡的运动学阶段和逆速度变化发布滑坡预警。
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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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