Reliability Analysis of the Slope Stability of Homogeneous Earth Dam under Seismic Loading

Earth dams are widespread throughout the world and their safety is the overriding concern of civil engineers, especially in regions with high seismic activity. This contribution presents a deterministic and reliability-based approach of the slope stability analysis of homogeneous earth dam under sei...

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Veröffentlicht in:	Periodica Polytechnica Civil Engineering 2024-01, Vol.68 (1), p.107-121
Hauptverfasser:	Belazouz, Lynda, Bouzelha, Karima, Hammoum, Hocine, Amiri, Ouali, Khelil, Nacim
Format:	Artikel
Sprache:	eng
Schlagworte:	Analysis Civil engineers Computer software Dam stability Dams Damsites Earth Earth dams Earthquake loads Embankments Engineering Sciences Failure analysis Failure modes Monte Carlo simulation Normal distribution Probability theory Random variables Reliability Reliability analysis Saturation Seismic activity Seismic stability Seismic zones Shear properties Slice method Slope stability Soil properties Stability analysis Statistical analysis Uncertainty Vertical forces Water level fluctuations Water levels
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creator	Belazouz, Lynda Bouzelha, Karima Hammoum, Hocine Amiri, Ouali Khelil, Nacim
description	Earth dams are widespread throughout the world and their safety is the overriding concern of civil engineers, especially in regions with high seismic activity. This contribution presents a deterministic and reliability-based approach of the slope stability analysis of homogeneous earth dam under seismic loading. The hydrostatic loading as well as the saturation line in the dam body is considered for different design situations to investigate the effects of water level fluctuations on earth dam slope stability. Seismic loading is introduced by horizontal and vertical pseudo-static forces, while the considered failure mode is circular slip, analyzed with the classical method of slices. Given the nature of the soils, uncertainties about their properties must be considered in the assessment of the slope stability. These uncertainties can be quantified by a reliability analysis. The proposed reliability method is approached by the failure probability assessment of the slope stability of an earth dam based on Monte-Carlo simulation. The used random variables are the mechanical shear properties of the embankment body as well as the acceleration coefficient of the seismic zone. For the failure probability evaluation, the log-normal distribution law was used to generate the random variables. A computer program was developed using Matlab®. The developed approach was applied, for a practical example, to analyze the slope stability of an earthen dam located in Médéa (Algeria), whose dimensions are realistic. The results obtained with the developed analytical model were compared with those obtained with the Flac2D© software. The confrontation turned out to be satisfying.
doi_str_mv	10.3311/PPci.22537
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This contribution presents a deterministic and reliability-based approach of the slope stability analysis of homogeneous earth dam under seismic loading. The hydrostatic loading as well as the saturation line in the dam body is considered for different design situations to investigate the effects of water level fluctuations on earth dam slope stability. Seismic loading is introduced by horizontal and vertical pseudo-static forces, while the considered failure mode is circular slip, analyzed with the classical method of slices. Given the nature of the soils, uncertainties about their properties must be considered in the assessment of the slope stability. These uncertainties can be quantified by a reliability analysis. The proposed reliability method is approached by the failure probability assessment of the slope stability of an earth dam based on Monte-Carlo simulation. The used random variables are the mechanical shear properties of the embankment body as well as the acceleration coefficient of the seismic zone. For the failure probability evaluation, the log-normal distribution law was used to generate the random variables. A computer program was developed using Matlab®. The developed approach was applied, for a practical example, to analyze the slope stability of an earthen dam located in Médéa (Algeria), whose dimensions are realistic. The results obtained with the developed analytical model were compared with those obtained with the Flac2D© software. 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The used random variables are the mechanical shear properties of the embankment body as well as the acceleration coefficient of the seismic zone. For the failure probability evaluation, the log-normal distribution law was used to generate the random variables. A computer program was developed using Matlab®. The developed approach was applied, for a practical example, to analyze the slope stability of an earthen dam located in Médéa (Algeria), whose dimensions are realistic. The results obtained with the developed analytical model were compared with those obtained with the Flac2D© software. The confrontation turned out to be satisfying.</abstract><cop>Budapest</cop><pub>Periodica Polytechnica, Budapest University of Technology and Economics</pub><doi>10.3311/PPci.22537</doi><tpages>15</tpages><oa>free_for_read</oa></addata></record>
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subjects	Analysis Civil engineers Computer software Dam stability Dams Damsites Earth Earth dams Earthquake loads Embankments Engineering Sciences Failure analysis Failure modes Monte Carlo simulation Normal distribution Probability theory Random variables Reliability Reliability analysis Saturation Seismic activity Seismic stability Seismic zones Shear properties Slice method Slope stability Soil properties Stability analysis Statistical analysis Uncertainty Vertical forces Water level fluctuations Water levels
title	Reliability Analysis of the Slope Stability of Homogeneous Earth Dam under Seismic Loading
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