Abstract
The stability of the reservoir bank landslide is affected by a variety of external factors, and the fluctuation of reservoir water level is one of the important influencing factors. The Erdaohe landslide is a typically colluvial landslide in the Three Gorges Reservoir area with periodic reservoir water level fluctuations. According to landslide displacement data, the displacement of the Erdaohe landslide exhibits the significantly stepwise feature. Its failure mechanism was analyzed using strength reduction method by the FLAC3D package in the case of reservoir water level changes. The results indicate that the hydrodynamic pressure has an important impact on the initialization of the landslide failure. When reservoir water level rises rapidly or maintains constant at the lower level, the landslide stability would be higher. When the reservoir water level decreases rapidly or maintains constant at the higher level, the landslide stability will be smaller. When the reservoir water level was in the lowest elevation, the factor of safety (FS) reached the minimum value of 1.11. Findings in this paper can provide guidelines for the risk assessment of colluvial landslides.
Highlights
Lots of landslides have been reported in the reservoir area, with the increased number of the large-scale hydraulic projects [1,2,3,4,5,6,7]
When the reservoir water level was in the lowest elevation, the safety coefficient of landslide mass was 1.11, which was close to the threshold value
The colluvial landslide influenced by the reservoir water level was discussed using the strength reduction method by the FlAC3D package
Summary
Lots of landslides have been reported in the reservoir area, with the increased number of the large-scale hydraulic projects [1,2,3,4,5,6,7]. The fluctuation of reservoir water level has an important impact on the landslide stability [7,8,9,10]. Since June 2003 when the Three Gorges Project was completed, around 2619 landslides have failed due to the fluctuation of the reservoir water level, and 670 mountains are under unstable status [5,6,7, 12,13,14,15,16,17,18,19,20]. A number of engineering cases and researches have been conducted to survey the influences of the reservoir and groundwater levels on the initialization of the landslide. Jiang et al [21] established a 3D geological model to simulate the Qiaotou landslide and survey the impact of reservoir
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