库水位骤降后面板缺陷坝体渗漏量和坝坡稳定性分析

为研究库水位变动情况下面板不同缺陷的面板堆石坝渗透稳定特性,利用著名岩土分析软件Geo-studio的Seep/w与Slope/w模块,以浙江省临海市西部括苍镇境内某面板堆石坝为例,对不同土工膜缺陷及库水位变动工况的组合进行了渗流特性及稳定性的数值模拟分析,得到了浸润线,渗漏量及稳定性系数的变化曲线,计算结果表明:(1)面板一旦发生缺陷,静库水位下坝体的浸润线有一个明显的抬升,缺陷尺寸越大,浸润线高程越高,但是差异不大。库水位高程越高,静库水位下坝体内部的浸润线高程也就越高;(2)库水位水平越高,缺陷尺寸越大,坝体渗漏量也就越大;(3)库水位骤降下面板坝内部浸润线呈现先疏后密的规律,库水位下降速率越大,上游坝体浸润线疏的部分则越疏。在库水位骤降经过面板坝缺陷高程时,有一个浸润线突降的过程;(4)从整体上看,上游坝坡的稳定性系数要大于下游坝坡的稳定性系数;静库水位下,库水位水平越高,上游坝坡稳定性系数越大,而下游坝坡稳定性系数则越小,缺陷位置越高,稳定性系数越低;库水位骤降情况下上游坝坡稳定性系数随库水位下降呈现先下降后上升的趋势,下游坝坡则呈现一直上升的规律,一旦面板发生缺陷,稳定性系数较完整面板来说有一个较大幅度的下降,面板缺陷尺寸越大,稳定性系数整体上越小。     

Sequential tracer tests for determining water seepage paths in a large rockfill dam, Nakdong River basin, Korea

The rockfill dam of this study has a clay core, filter zone, and sandy gravel shell, and it is located in the Nakdong River basin in Korea. Filling the reservoir began in August 1994 and it was full by April 1998. When the reservoir level was approximately 150 m, three settlement holes were found in the dam crest. To determine possible seepage paths and potential damaged areas within the rockfill dam, 15 tracer tests were performed during two periods. During the two test periods, six and nine tracer tests were conducted when the average water levels of the reservoir were 145 m and 142 m, respectively. Rhodamine WT (RWT) and bromide ion were used as tracers. For each test, 1800 to 4000 L of tracer solution were injected into the riprap for about 5 h. The 15 injection points were uniformly distributed from the right to left sides of the embankment and the two tracers were injected alternately. Tracer concentrations were monitored at 26 observation wells, which were divided into four groups by their geographical positions: right side of the crest, left side of the crest, right side of the dam toe, and left side of the dam toe. For each tracer test, more than 30 water samples were taken during a period of 96 h at each observation well. Based the breakthrough curves obtained from the sequential tracer tests, it was inferred that the most probable seepage paths and potential damaged area were in the left side of the crest (tongue wing zone) and, to a lesser extent, in the right side of the dam abutment.     

不同沟床坡度堰塞坝溃口展宽历程试验研究

为了解堰塞坝在不同沟床坡度地段的溃口展宽历程,进行了沟床坡度为7°~13°,间隔为1°的7组水槽试验。对比分析7组试验观测数据,评价不同沟床坡度对堰塞坝溃口展宽历程的影响。得到如下结果及结论:(1)漫顶破坏的堰塞坝在不同沟床坡度地段的溃口展宽历程是十分相似的,根据其溃决特征,可将其展宽历程划分为溃口贯通、突变和稳定边坡形成等3个阶段。(2)在突变阶段溃口边坡沿x轴方向会发生多次失稳,溃口顶部形态在背水坡呈“S”型,在坝顶呈“U”型,在迎水坡呈“弧”型。(3)不同沟床坡度条件会影响突变阶段的溃决特征,随沟床坡度的增加突变阶段溃口边坡单次失稳规模表现出先增大后减小的特征,溃口边坡失稳次数呈现出先减少后增加的特征。(4)溃口边坡的稳定性主要取决于溃口的侧蚀宽度和下蚀深度,其与溃口顶、底部侧蚀宽度之差呈负相关关系,与溃口下蚀深度呈正相关关系。(5)不同沟床坡度堰塞坝的溃决流量随溃决时间的延长具有相同的变化趋势,但不同沟床坡度堰塞坝的溃决峰值流量和峰值流量到达时间却不尽相同,随沟床坡度的增加峰值流量逐渐减小,峰值流量到达时间先提前后推迟。     

土石坝下游坝坡砌块在地震作用下的稳定性评价

分析了用水平最大反应加速度这一指标评价坝坡散粒体在地震作用下的稳定性的不足,以护坡用的砌块为研究对象,提出了砌块逸出安全系数Ks的公式,使对坝坡散粒体稳定性的评价由定性发展到定量阶段。计算Ks时综合考虑了砌块水平和竖向反应加速度和坡角等因素,使评价相当合理。用所提方法分析了一面板堆石坝下游坡砌块在地震作用下的稳定性。     

Numerical simulation of landslide dam breaching due to overtopping

The breach of landslide dam often causes significant disaster in the inundated area; the prediction of breach hydrograph is in high demand for the dam breach risk evaluation. In this study, according to the model tests and Tangjiashan landslide dam breach case, the surface erosion accompanied by intermittent mass failure is known as the key breaching mechanism for landslide dam due to overtopping failure. The downstream slope angle would gradually decrease during the dam-breaching process, whereas a planar wedge failure occurs when the breach slopes at the dam crest and downstream breach channel fail. Based on the breach mechanism, a numerical model for landslide dam breach due to overtopping is developed to simulate the coupling process of water and soil. The model focuses on the breach morphology evolution during the breaching for the sake of the improvement of breach hydrograph prediction. Furthermore, the model can handle one- and two-sided breach, as well as incomplete and base erosion at the vertical direction. The case study of Tangjiashan landslide dam-breaching feedback analysis testifies the rationality of the present model with the relative errors less than 10% for peak discharge, final breach widths, and time to peak. The sensitivity analysis indicates that the final breach depth and soil erodibility affect the breach flow prediction of the landslide dam significantly, whereas the one- or two-sided breach mode is less sensitive.     

精细地形下的尾矿坝稳定性及溃坝模拟分析

目前在尾矿坝稳定性和溃坝模拟分析方面,对溃口位置及水砂的流动状态难以做出准确判断。将尾矿坝稳定性和溃坝模拟有机结合,采用FLAC3D计算正常水位、洪水位、漫顶水位三种工况下尾矿坝稳定性,并利用Rhino与Fluent建立尾矿库及下游精细地形,开展尾矿库溃坝水砂在不同时刻及不同地形下的流动状态研究分析。结果表明:（1）浸润线的埋深随尾矿库水位的升高而变小,由正常水位升高至洪水位时浸润线埋深下降5～8 m,漫顶水位时坝顶浸润线沿坡面向下运移约8 m;（2）库水位对剪切带及尾矿坝稳定性有显著影响,从正常水位到洪水位时,剪切带纵向上不断向坝体内部延伸,横向上不断向坝脚延伸,剪切应变率增大为5.78×10?5,尾矿坝稳定系数由1.80下降至1.32;（3）达到坝顶时剪切带急剧缩短,而剪切应变率进一步增大为3.32×10?4,尾矿坝稳定系数由1.32下降到1.18。溃坝水砂的流动状态受地形影响明显,在山谷中表现为范围减小、流速增大的汇聚流动,在平坦农田处表现为范围增大、流速减小的发散流动特点。     

Formation conditions of outburst debris flow triggered by overtopped natural dam failure

Natural dams formed by landslides may produce disastrous debris flows after dam outburst. However, studies on the critical conditions required for the formation of outburst debris flow resulting from natural dam failure are still at an early stage. In this paper, we present the results of a series of laboratory tests that assessed three different materials, five different flume bed slope angles (2°, 7°, 9°, 10°, and 13°), two in-flow rates, and four types of dam geometric shapes. The results showed that the unit weight of downstream fluid increased with increasing bed channel slope. Additionally, a critical flume bed angle was found for debris flow formation. Furthermore, the combination of lake volume and flume bed angle was found to influence the formation of debris flow. A nonlinear trend was observed between the unit weights of debris flow and the uniformity coefficients of solid material. Based on the theory of stream power, a critical condition for debris flow formation from natural dam failure was established. Based on two case studies, the results indicate that the condition that was established for debris flow formation following natural dam failure agrees well with reality.     

Study on collapse settlement and cracks of core wall rockfill dams under wetting deformation

The safety and stability of core wall rockfill dams during impoundment are threatened by the wetting deformation of up-stream shell materials. The serious wetting deformation not only aggravates the collapse settlement of upstream rockfill but also intensifies differential settlement of the dam crest during impoundment, and then causes cracks on the dam crest. On the basis of the proposed wetting deformation model and its simulation method of wetting deformation, this paper simulated the impoundment process of Guanyinyan core wall rockfill dam and studied the deformation characteristic of the dam during impoundment. In addition, the smeared cracking model was used to simulate the crack propagation on the dam crest, and the crack develop and spread mechanism was analysed. The results show that the simulated deformation can fit the in-situ data well, and the simulated crack propagation is in good agreement with the actual situation. Once watered, the upstream rockfill and core wall have significant settlement, and the whole dam crest has obvious horizontal displacement towards the upstream. It is on the same order of magnitude that the increment of horizontal displacement and settlement at the top of the dam during impoundment. In the process of impoundment, the upper part of the dam tends to deform towards the reservoir area, which will lead to tensile cracks appearing in the rockfill areas on both upstream and downstream sides of the core wall of the dam crest, and the propagation direction of the cracks is basically parallel to the adjacent core wall surface. With the water level rising, the cracks on the downstream side of the dam crest mainly extend vertically, and the cracks on the upstream side of the dam crest not only extend vertically, but also extend horizontally.     

余震作用下堰塞坝体破坏及溃决过程大型振动台试验研究

山区特大地震往往导致大量堰塞湖,例如2008年汶川地震形成了至少257个堰塞湖,并且主震后发生了大量余震,这些余震可能会影响堰塞坝体的安全状态。通过大型振动台模型试验,研究了余震及库水耦合作用下堰塞坝体的破坏及溃决机理和过程。共进行了两组不同材料的振动台模型试验,分别模拟含黏粒较多且颗粒较小（坝体Ⅰ）和基本不含黏粒且颗粒较大（坝体Ⅱ）的两种坝体。在不同水位条件下进行振动台试验。研究成果表明:（1）地震和库水耦合作用下堰塞坝体的主要溃决方式是漫顶溢流,主要溃决过程为地震力使松散的堰塞坝体发生沉陷,库水渗入使沉陷加剧,最终水位上升漫过坝顶发生溢流冲蚀破坏。（2）地震一般不会直接引起堰塞坝体的破坏。地震力对坝体稳定性的主要影响是使坝体发生沉陷变形。在地震和库水耦合作用下,坝体沉陷比单一因素作用下更为剧烈,因此地震作用会使漫顶溢流提前发生。（3）地震和库水耦合作用下坝体Ⅰ沉陷量大于坝体Ⅱ,说明现实中由大粒径岩土体组成的堰塞坝体具有更好的稳定性。     

堆石料湿化变形特性试验研究

湿化变形是土石坝的主要后期变形之一,对坝体的应力变形性状具有显著影响。采用糯扎渡高心墙堆石坝的弱风化花岗岩堆石料进行了常规三轴试验、不同围压和应力水平条件下的流变-湿化组合试验和快速湿化三轴试验等,分析了流变-湿化组合试验各阶段的变形特征,重点研究了堆石料湿化变形的过程、特性及发生机制。结果表明,可将堆石料湿化变形划分为湿化瞬时变形和湿态流变变形两个部分。其中,湿化瞬时变形是堆石料随浸水饱和过程发生的变形,其应变增量的方向平行于相应应力状态下应力加载应变增量的方向,且具有非硬化特性;湿态流变变形是堆石料试样在饱和浸水完成后发生的随时间的变形,和一般堆石料的流变变形具有相类似的特性。湿化变形是堆石料浸水后所导致的物态弱化变形。可将堆石料湿化看作一种广义的荷载。     

瀑布沟大坝心墙拱效应分析

在总结前人提出的拱效应系数基础上,对拱效应系数的公式进行了改进,认为拱效应系数应该是实测土压力与上覆土压力和孔隙水压力之和的比值。结合瀑布沟大坝监测资料,用改进的拱效应系数计算公式对大坝心墙拱效应进行计算,并对心墙内拱效应进行动态分析。在施工期,施工工艺是影响大坝心墙拱效应系数的主要因素,填土在仪器埋设以上0～20 m时,拱效应系数较大,随着填土的增加拱效应系数减小,施工期坝体内应力分布在蓄水初期起决定性作用。在蓄水期,心墙上游侧拱效应系数与水位变化呈反相关联,拱效应系数比下游同高程和0+001 m处大;0+001 m处拱效应系数与水位变化呈正相关联,且此处拱效应系数最小;心墙下游处拱效应系数与水位变化呈正关联的关系,在心墙与基岩接触处拱效应系数大于100%。产生这种规律的原因主要有湿化、渗流、水力劈裂作用,三者共同影响,从而导致心墙内应力发生变化。     

正反粒序结构条件下滑坡堰塞坝破坏模式研究

滑坡堰塞坝是大型滑坡堆积体堵塞河道形成的土石坝。正、反粒序结构作为大型远程滑坡所特有的2种具有显著差异的地质结构特征,2种情况下坝体的破坏模式差异及稳定性影响因素亟需试验研究。文章通过室内水槽物理模型实验,对比不同粒径、不同结构的滑坡堰塞坝坝体的破坏过程差异,探究了正、反粒序结构条件下堰塞坝的稳定性差异、破坏模式及影响因素。研究结果表明：（1）堰塞坝破坏模式的变化取决于浸润线在下游坡面的出露位置,相比上游水位有一定的延迟性;（2）正、反粒序堰塞坝的破坏模式取决于坡体渗流与下游坡面临界起动坡降的关系;（3）细砂层的位置分布,不同埋深细砂层的起动临界坡降差异和细砂与中粗砂的孔隙率差异是造成正、反粒序坝体破坏差异的主要原因。该研究成果可为大型滑坡堰塞坝的防灾减灾提供理论指导。     

Electrical resistivity imaging and dye tracer test for the estimation of water leakage paths from reservoir of Akdeğirmen Dam in Afyonkarahisar,Turkey

The seepage occurrence from the reservoir on the right bank of the Akde?irmen Dam located in Afyonkarahisar province in the Turkey has been investigated. When the reservoir began to fill with water, a large amount of water seepage occurred at the dam. The seepage developed at the base of the spillway and the right downstream slope of the dam. The various attempts have been made to reduce the seepage using grouting. Although the additional grouting operations was reduced the seepage at the base of the spillway, there has not been a reduction in seepage at the water outlet location at the downstream slope. Electrical resistivity measurements along the eight lines with the dipole–dipole array and dye tracer tests were performed in order to identify the seepage locations. The interpretation of electrical resistivity data showed the distribution of strata and the seepage zone along the right downstream of the dam. Groundwater flow rates calculated from dye tests indicated that there is an excessive seepage south-eastwardly on the downstream slope of the dam. Integrated interpretation of resistivity data and dye tests indicate that the seepage paths are in the direction from NW to E and SE.     

滑坡堰塞坝越顶溢流破坏的物理模型实验

滑坡堰塞坝作为结构松散的堆积物,随着上游水位的不断上涨,其稳定性不断降低,并存在突然溃坝的风险。以唐家山滑坡堰塞坝为研究对象,基于相似原理,开展符合坝体颗粒级配的室内水槽物理模型实验,模拟了不同坝后蓄水量、不同水位和不同颗粒物质组成条件下坝体渗流、漫顶破坏的整个过程。监测结果显示：堰塞坝漫顶溃坝主要分为渗流、漫顶、冲刷和溃决4个过程;坝体堆积颗粒级配越差,坝体允许渗流坡降越小;相同材料配比的坝体,上游水位相同时,坝体底部水平位移最大,且漫顶溃坝时溃口尺寸与蓄水量正相关。该研究结果揭示了堰塞坝漫顶破坏规律,可为堰塞坝溃坝防治提供理论参考。     

关于堆石料三维流变速率的一点注记

原型监测表明面板堆石坝一般存在比较显著的流变现象。针对不同文献给出的堆石料三维剪切流变速率计算式存在差异,笔者以3参数指数流变模型为例对堆石料三维流变速率进行了研究。假设体积流变和剪切流变变化规律不同,首先推导了三维体积流变速率计算公式,然后依据Prandtl-Reuss流动法则可以由Mises屈服函数作为塑性势函数推导获得。为此,采用关联流动法则,同时假设塑性势函数为Mises屈服函数,导出了堆石料三维剪切流变速率计算式。通过将三维流变速率计算式退化为单轴流变速率计算式进行合理性分析,分析表明,本文导出的三维流变速率计算式理论上是严谨的,由此指出相关文献给出的流变速率计算式理论上不严谨。     

A reliability-based approach to evaluating the stability of high rockfill dams using a nonlinear shear strength criterion

In recent years, many high rockfill dams have been constructed in China for the purpose of hydropower generation. One of the critical aspects of rockfill dam design is the analysis of slope stability. Triaxial compression tests show that the failure envelopes of rockfills are curved and that nonlinear shear strength criteria yield better predictions of the shear strengths of rockfills than the Mohr–Coulomb criterion. Because the determination of shear strength parameters involves uncertainties, a reliability-based methodology was developed for use in evaluating the failure probability of rockfill dam slopes by integrating Bishop’s simplified method, Duncan’s nonlinear strength criterion and the first-order second-moment reliability method presented in this paper. A computer program, SCU-SLIDE, was developed and its outputs validated by comparison with Monte Carlo simulation results. The approach developed was used to study the stability of the Shuang Jiang Kou rockfill embankment dam, which when completed will be the tallest dam in the world. The results of the stability analysis are discussed and conclusions are presented in this paper.     

粗粒坝料边坡稳定分析强度指标研究

分别采用线性、非线性强度指标,对几座典型高堆石坝边坡进行稳定计算,并分析了计算结果产生差异的内在原因;认为粗粒土坝坡最危险滑弧位置较浅,低围压区的抗剪强度特性才是决定坝坡是否稳定的关键。在国内外多个堆石坝料强度统计资料基础上,认为De Mello幂函数强度准则更合理地反映不同应力范围抗剪强度的非线性特征;通过拟定不同坝高、坡比的坝坡进行稳定计算,确定了土石坝不同坝高潜在最危险滑块的工作应力范围,并建议了基于该应力范围的线性强度指标取值,其边坡稳定分析最小安全系数与非线性强度指标的计算值基本相当。     

高聚物胶凝堆石料静力特性试验研究

采取加固措施可提高土体抗剪强度、减小变形等。采用聚氨酯高聚物胶凝堆石料加固土石坝以改良堆石料强度、变形特性。开展了聚氨酯胶凝堆石料三轴剪切试验研究,结果表明：聚氨酯胶凝堆石料偏应力-轴向应变曲线具有明显的非线性,抗剪强度提高;采用抛物线拟合偏应力-轴向应变曲线,可反映其应变软化和应变硬化,并得到初始弹性模量随聚氨酯含量的提高而提高;聚氨酯泡沫填充堆石颗粒间孔隙并将堆石颗粒黏结在一起,减少颗粒破碎、颗粒重排列,使堆石料剪缩特征减弱,当聚氨酯含量高时表现出剪胀;聚氨酯增加了堆石料准黏聚力,对内摩擦角无明显影响。通过有限元方法对堆石坝变形和稳定性进行分析,结果表明,聚氨酯加固堆石坝可减少边坡浅层滑动,增大滑弧深度,提高坝坡稳定安全系数。     

Usoi Dam Wave Overtopping and Flood Routing in the Bartang and Panj Rivers, Tajikistan

The Usoi dam was created in the winter of 1911 after an enormous seismogenic rock slide completely blocked the valley of the Bartang River in the Pamir Mountains of southeastern Tajikistan. At present the dam impounds 17 million cubic meters of water in Lake Sarez. Flood volume and discharge estimates were made for several landslide generated floods that could overtop the dam. For landslide volumes of 200, 500, and 1,000 million cubic meters, estimated overtopping flood volumes were 2, 22, and 87 million cubic meters of water, respectively. Estimated peak discharge at the dam for these three flood scenarios were 57,000, 490,000, and 1,580,000 m³/s, based on triangular hydrographs of 70-, 90-, and 110-s durations, respectively. Flood-routing simulations were made for the three landslide-induced overtopping floods over a 530-km reach of the Bartang and Panj Rivers below the Usoi dam. A one-dimensional flow model using a Riemann numerical solution technique was selected for the analysis. For the 87 million cubic meter volume overtopping flood scenario, the peak flows were approximately 1, 100, 800, and 550 m³/s at locations 50, 100, and 150 km downstream of the dam respectively.     

紫山灰坝迎灰坡裂缝成因分析及灌浆防治对策

因曝气池漫顶溃坝,使紫山灰坝排渗盲沟和迎灰坡无砂混凝土面遭到局部破坏,造成排渗盲沟出口处排水量增大,有时漏灰,在排渗盲沟进口处灰面出现漏水漏灰漏斗,先在无砂混凝土面(刚性体)、后在迎灰坡坡面(柔性体)出现多条裂缝。分析产生裂缝的原因是由滑坡形成的,在实施临时抢险保坝措施和选择防治方案前提下,做了充填式灌浆可行性试验,从而对裂缝进行了灌浆处理,随后接受了当年夏季特大暴雨的考验,至今该坝运行正常。灌浆效果很好。