长江科学院院报2025,Vol.42Issue(9):167-173,184,8.DOI:10.11988/ckyyb.20240703
高心墙堆石坝渗透破坏时变风险分析
Time-varying Risk Analysis of Seepage Failure in High Core-wall Rockfill Dams
摘要
Abstract
[Objective]The material composition of high core rockfill dams is complex.Under the influence of hy-draulic loading,temperature,and other complex environmental factors during long-term service,the permeability coefficients of these materials inherently exhibit time-varying characteristics,significantly influencing seepage sta-bility and overall dam safety.This study aims to address the limitations of existing research,which predominantly focuses on static parameter inversion or non-time-varying risk assessment,and lacks systematic consideration of the time-varying patterns of material parameters and the influence of long-term operation.[Methods]A time-varying risk analysis method for seepage failure in high core rockfill dams was proposed,integrating data decomposition,fi-nite element simulation,time-varying parameter inversion,and failure risk analysis.First,based on multi-year measured seepage pressure data of the dam,empirical mode decomposition was used to extract the periodic and trend components.Combined with orthogonal experiments and response surface methodology,an inverse surrogate model for the permeability coefficients of the high core rockfill dam and its foundation was constructed.Subsequent-ly,through optimization using a genetic algorithm,this study investigated and revealed the time-varying patterns and characterization functions of permeability coefficients.Finally,based on the time-varying patterns of permeabili-ty coefficients and the Monte Carlo method,a time-varying risk analysis model for seepage failure in high core rock-fill dams was established to achieve the dynamic risk assessment of seepage failure in the dam structure.[Results]This method was applied to the Pubugou Dam project.The results showed that the relative error of permeability co-efficient inversion for both the dam and foundation was less than 2%,with an average relative error of 0.4%.Seep-age field simulations based on the inverted parameters showed that the distribution of seepage pressure inside the dam followed the rising and falling trend of the reservoir water level and was consistent with the patterns observed in the measured seepage pressure data.This conformed to the typical seepage field distribution patterns of high core rockfill dams,indicating a high level of inversion accuracy.Furthermore,the permeability coefficients of both the core wall and the overburden layer showed time-varying patterns of gradual increase and stabilization.Reliability a-nalysis of seepage failure in the dam and its foundation indicated that the reliability indicator(β)of the dam con-sistently exceeded the design target value during the operational period,suggesting that the overall risk of seepage failure was low.Additionally,the reliability indicator for seepage failure in the dam and its foundation exhibited pe-riodic fluctuations with changes in the reservoir water level,showing a generally negative correlation between the re-liability indicator and reservoir water levels and a positive correlation between failure probabilities and water levels.This was generally consistent with the seepage characteristics and patterns of dam structures under different water level conditions,validating the applicability of the proposed time-varying risk analysis model.The results confirmed that the reliability indicator for seepage failure of the Pubugou Dam complied with regulatory requirements.[Conclusions]The method developed in this study integrates time-varying parameter inversion,modeling of time-varying patterns,failure path search,surrogate model construction,and time-varying risk analysis.By dynamically identifying and updating time-varying parameters in real time,it enables accurate simulation of seepage failure processes and full lifecycle monitoring of risk evolution,thereby enhancing the timeliness and accuracy of safety risk assessments for high dam structures.关键词
高心墙堆石坝/渗透系数/反演/时变规律/渗透破坏风险Key words
high core-wall rockfill dam/permeability coefficient/inversion/time-varying patterns/seepage failure risk分类
建筑与水利引用本文复制引用
周福雄,赵勋礼,刘宏伟,卢祥,裴亮,陈辰..高心墙堆石坝渗透破坏时变风险分析[J].长江科学院院报,2025,42(9):167-173,184,8.基金项目
国家自然科学基金项目(52309162) (52309162)
