Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined Method

Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined Method

Large-scale slopes at the banks of reservoirs pose a serious threat to the safety of hydropower stations. The fluctuation of the reservoir water level is a key factor in the slope stability. However, the parameters to describe the relationship among water content, matric suction, and soil strength a...

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Main Authors: Qingxiang Meng, Kun Qian, Lin Zhong, Jinjian Gu, Yue Li, Kaifeng Fan, Long Yan
Format: Article
Language:English
Published: Hindawi-Wiley 2020-01-01
Series:Geofluids
Online Access:http://dx.doi.org/10.1155/2020/6683311
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spelling doaj-2681663d9de5461a83cefc006e3d30d02021-01-11T02:22:01ZengHindawi-WileyGeofluids1468-81232020-01-01202010.1155/2020/6683311Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined MethodQingxiang Meng0Kun Qian1Lin Zhong2Jinjian Gu3Yue Li4Kaifeng Fan5Long Yan6Key Laboratory of Ministry of Education for Geomechanics and Embankment EngineeringKey Laboratory of Ministry of Education for Geomechanics and Embankment EngineeringNanjing Yangtze River Management OfficeHuadong Engineering Corporation LimitedKey Laboratory of Ministry of Education for Geomechanics and Embankment EngineeringKey Laboratory of Ministry of Education for Geomechanics and Embankment EngineeringKey Laboratory of Ministry of Education for Geomechanics and Embankment EngineeringLarge-scale slopes at the banks of reservoirs pose a serious threat to the safety of hydropower stations. The fluctuation of the reservoir water level is a key factor in the slope stability. However, the parameters to describe the relationship among water content, matric suction, and soil strength are difficult to measure using unsaturated soil strength theory. To solve this problem, a simple FEM-LEM-combined scheme considering pore pressure, seepage force, and strength weakening is presented to calculate the safety factor. A numerical study on the impact of reservoir water level fluctuations on stability of a glaciofluvial deposit slope is implemented. Two typical profiles are used to estimate the stability of the glaciofluvial deposit slope in response to rising and lowering water levels. The results indicate that this method proposed a simple and efficient tool for water level-induced slope stability analysis.http://dx.doi.org/10.1155/2020/6683311
collection DOAJ
language English
format Article
sources DOAJ
author Qingxiang Meng
Kun Qian
Lin Zhong
Jinjian Gu
Yue Li
Kaifeng Fan
Long Yan
spellingShingle Qingxiang Meng
Kun Qian
Lin Zhong
Jinjian Gu
Yue Li
Kaifeng Fan
Long Yan
Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined Method
Geofluids
author_facet Qingxiang Meng
Kun Qian
Lin Zhong
Jinjian Gu
Yue Li
Kaifeng Fan
Long Yan
author_sort Qingxiang Meng
title Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined Method
title_short Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined Method
title_full Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined Method
title_fullStr Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined Method
title_full_unstemmed Numerical Analysis of Slope Stability under Reservoir Water Level Fluctuations Using a FEM-LEM-Combined Method
title_sort numerical analysis of slope stability under reservoir water level fluctuations using a fem-lem-combined method
publisher Hindawi-Wiley
series Geofluids
issn 1468-8123
publishDate 2020-01-01
description Large-scale slopes at the banks of reservoirs pose a serious threat to the safety of hydropower stations. The fluctuation of the reservoir water level is a key factor in the slope stability. However, the parameters to describe the relationship among water content, matric suction, and soil strength are difficult to measure using unsaturated soil strength theory. To solve this problem, a simple FEM-LEM-combined scheme considering pore pressure, seepage force, and strength weakening is presented to calculate the safety factor. A numerical study on the impact of reservoir water level fluctuations on stability of a glaciofluvial deposit slope is implemented. Two typical profiles are used to estimate the stability of the glaciofluvial deposit slope in response to rising and lowering water levels. The results indicate that this method proposed a simple and efficient tool for water level-induced slope stability analysis.
url http://dx.doi.org/10.1155/2020/6683311
work_keys_str_mv AT qingxiangmeng numericalanalysisofslopestabilityunderreservoirwaterlevelfluctuationsusingafemlemcombinedmethod
AT kunqian numericalanalysisofslopestabilityunderreservoirwaterlevelfluctuationsusingafemlemcombinedmethod
AT linzhong numericalanalysisofslopestabilityunderreservoirwaterlevelfluctuationsusingafemlemcombinedmethod
AT jinjiangu numericalanalysisofslopestabilityunderreservoirwaterlevelfluctuationsusingafemlemcombinedmethod
AT yueli numericalanalysisofslopestabilityunderreservoirwaterlevelfluctuationsusingafemlemcombinedmethod
AT kaifengfan numericalanalysisofslopestabilityunderreservoirwaterlevelfluctuationsusingafemlemcombinedmethod
AT longyan numericalanalysisofslopestabilityunderreservoirwaterlevelfluctuationsusingafemlemcombinedmethod
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