›› 2016, Vol. 37 ›› Issue (4): 1144-1152.doi: 10.16285/j.rsm.2016.04.029

• Numerical Analysis • Previous Articles     Next Articles

Reliability analysis of slope stability considering variability of soil saturated hydraulic conductivity under rainfall infiltration

DOU Hong-qiang1, 2,HAN Tong-chun1,GONG Xiao-nan1,LI Zhi-ning1,QIU Zi-yi1   

  1. 1. Research Center of Coastal and Urban Geotechnical Engineering, Zhejiang University, Hangzhou, Zhejiang 310058, China; 2. College of Environment and Resources, Fuzhou University, Fuzhou, Fujian 350116, China
  • Received:2014-07-14 Online:2016-04-11 Published:2018-06-09
  • Supported by:

    This work was supported by the National Natural Science Foundation of China (NSFC)(51178423) and Zhejiang Provincial Natural Science Foundation (LY15E080010).

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Abstract: The saturated hydraulic conductivity is inherently variable. An extension infiltration model considering the variability of saturated hydraulic conductivity is established using the classic Green-Ampt model; and then the corresponding depth of the wetting front and the distribution of water content are determined. Meanwhile, a closed form of the limit state function is presented, based on the combination of the extension of the Green-Ampt model and the infinite slope stability model. Random number sequences of saturated hydraulic conductivity are generated following a lognormal distribution using the Monte Carlo simulation method. For a hypothetical slope that is subjected to steady-state rainfall infiltration, a series of parameter analyses is conducted. The results show that the cases with a smaller coefficient of variability have a smaller failure probability in the initial stage of rainfall infiltration. However, as rainfall progresses, the cases with a smaller coefficient of variability have a larger probability of failure instead. The most likely failure time of the slope is not affected by the coefficient of variability, but depends on the intensity of rainfall. The corresponding probability of the most likely failure time decreases with the increase of the variability.

Key words: rainfall infiltration, slope stability, Monte Carlo method, Green-Ampt model, saturated hydraulic conductivity, coefficient of variability

CLC Number: 

  • TU 42

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