共查询到20条相似文献,搜索用时 31 毫秒
1.
考虑不同泄流槽方案的堰塞坝溃决机理分析——以唐家山堰塞坝为例 总被引:1,自引:0,他引:1
近年来,频发的地质构造活动和极端气候灾害诱发了大量堰塞坝,严重威胁上下游群众的生命财产安全。开挖泄流槽是最常用降低堰塞坝溃决风险的措施,由于时间非常急迫、交通极度瘫痪,其开挖量非常有限,因此如何利用有限的开挖量将溃坝风险降低至最小是亟待解决的问题。本文基于水土耦合冲刷机理,提出了考虑不同泄流槽方案的堰塞坝溃决机理分析方法,并应用于唐家山堰塞坝。该方法根据水力学参数和坝体抗冲刷性参数动态计算瞬时坝体冲刷率,进而分析泄流槽对溃决全过程的影响,从而自动获取最优的泄流槽设计方案。将此方法应用于唐家山堰塞坝案例发现:唐家山堰塞坝泄流槽最优设计时溃坝洪峰流量为1700m3·s-1,小于实际峰值流量6500m3·s-1,主要是因为增大泄流槽的纵坡率,显著增强溃坝前的冲刷并形成双洪峰,从而有效降低了溃决峰值流量。由于复合槽相对较小的水力半径限制了溃坝前的冲刷,使得临溃时水位较高,因此溃坝峰值流量比单槽大,溃坝风险降低效果不如单槽。 相似文献
2.
3.
For over three decades, emergency planners have used numerical models to predict breaching in earthfill dams due to extreme
events such as overtopping. However, current models neglect the role of the unsaturated zone present within the downstream
face of an earthfill dam. This leads to an incorrect estimation of the time and space evolution of the breaching process,
as such models often oversimplify governing geotechnical aspects such as the presence of the unsaturated soil medium in the
vicinity of the breach channel. The stress state in the soil due to matric suction acts as a stabilizing force for the breaching
mechanism and influences the erosion of the breach channel, especially during the initial phases of the breaching. The side-slope
failure mechanism observed along the breach channel is also influenced by the negative pore-water-pressures in the soil. Based
on a comprehensive experimental research program carried out in the Hydraulics Laboratory at the University of Ottawa, Canada,
several new concepts are proposed to incorporate geotechnical factors and techniques which must be considered during the construction
of earthfill dam models for laboratory testing. Two main findings emerged from this experimental work. First, the installation
of a drainage mattress at the downstream toe of the dam depressed the phreatic surface through the earthfill dam body, which
caused a lag in the breaching process due to the infiltration and reduced erosion occurring in the breach channel. Second,
it is essential to control compaction during the construction of the earthfill dam model, since this significantly influences
the erosion, as well as the side-slope failures which occur in the breach channel. Future studies are under way by the authors
with the purpose of scaling of parameters such as the matric suction and soil erodibility. 相似文献
4.
Physically based modeling approach has been widely developed in recent years for simulation of dam failure process resulting
from overtopping flow. Due to the lack of field data, there exist few applications to natural quake dams with complex erosion
mechanisms. This paper presents a physically based simulation of the failure process of the Tangjiashan Quake Dam formed as
a result of the “May 12, 2008” Wenchuan earthquake in China. The one-dimensional model adopted features as cost saving but
enables capturing the main characteristics of the failure process, where selective sediment transport and gravitational slope
collapse are accounted for. The simulated flow hydrograph and breach progression process are generally in good agreement with
the observed data. Unsteadiness and non-uniformity are found to be substantial characteristics of breach progression during
the failure process of natural quake dams. Sensitivity analysis showed that the Manning resistance coefficient and the erodibility
coefficient in Osman and Thorne’s (J Hydraul Eng 114(2):134–150, 1988) model significantly influences the flow peak discharge but has less influence on its occurrence time, while the velocity
lag coefficient associated with bed-load transport may affect the two breaching parameters substantially. 相似文献
5.
Measurement of debris mass changes and assessment of the dam-break flood potential of earthquake-triggered Hattian landslide dam 总被引:1,自引:1,他引:0
Ahsan Sattar Kazuo Konagai Takashi Kiyota Takaaki Ikeda Jorgen Johansson 《Landslides》2011,8(2):171-182
The Hattian landslide, which was triggered by the 2005 Kashmir earthquake, formed one of largest landslide dams in the world and it has posed a serious threat of flooding to people living in the lower reach of the Jhelum River. In order to understand deformation occurring in the body of the dam, physical measurements using a Differential Global Positioning System (DGPS) were conducted. Gradual deformation and slowly developing backward erosion initially were observed, leading eventually to a sudden creation of a deep hollow on the downstream slope of the landslide dam. The dimensions of this eroded gully were determined by laser scanning, and the results showed a significant loss of soil volume and a large change in the body of the dam. A breach formation model was used to predict the outflow hydrograph generated by constant downcutting of dam during a breaching event. A run-off analysis of the outflow hydrograph was conducted to evaluate inundation levels of flood waves in case the dam is breached. Hazardous downstream locations were identified near the junction of the Karli and Jhelum Rivers, suggesting a need for early warning system in order to avoid loss of lives. 相似文献
6.
在影响堰塞坝溃决的众多因素中,初始含水量影响堰塞坝的溃决机理仍不清楚。通过开展不同初始含水量条件下的水槽试验,详细探究了初始含水量对溃决过程的影响规律。结果表明:不同初始含水量条件下的溃决过程均具有3个典型阶段,分别是牵引侵蚀过程、溯源侵蚀过程和水沙运动再平衡过程;峰值流量随初始含水量的增大而增大,而溃决历时和残留坝体高度随初始含水量的增大而减小;随初始含水量的增大,溯源侵蚀作用逐渐减弱,牵引侵蚀作用增强;随初始含水量的增大,溃口展宽率降低,侵蚀率增大;初始含水量小于7.8%时,平均侵蚀率增长缓慢,大于7.8%后,平均侵蚀率增长迅速,且10.3%初始含水量对应的平均侵蚀率约为7.8%初始含水量的2倍;溃口宽深比在溃决的前两阶段随初始含水量的增大而减小;溃决结束后的宽深比随含水量的增大呈先趋近于1.00、后远离1.00的演变。 相似文献
7.
红石河堰塞湖漫顶溃坝风险评估 总被引:6,自引:1,他引:5
四川省青川县红石河堰塞湖是2008年5月12日汶川大地震形成的34座大型堰塞湖之一,是由东河口滑坡堵塞红石河形成的。该堰塞体高度约50 m、宽度约250 m、顺河向长度约500 m、形成的最大库容约400万m3。本文作者对红石河堰塞体做了较详尽的现场试验,包括土的冲蚀试验、土的基本物性试验等。基于现场试验数据,对土的冲蚀性和漫顶溃坝风险做了详细的分析。结果显示,从土的抗冲蚀性角度考虑,只要有水溢出就会有土体被冲蚀,这说明红石河堰塞体的漫顶溃决可能性较高。本文还提出经验公式来预测红石河堰塞体漫顶的溃决时间,大约为4.5d,如果考虑到大石块对抗冲蚀稳定性的有利影响,这一数值会增大。此外,还研究了溃决深度随时间的变化规律。 相似文献
8.
针对缺乏地形条件和工程处置措施对堰塞坝溃决过程影响研究的现状,采用4种河床坡度(0°、1°、2°、3°)和3种泄流槽横断面型式(三角形、梯形、复合型),开展了堰塞坝溃决的模型试验。通过分析堰塞坝的溃决流量、溃决历时、溃口发展和坝体纵截面演变过程,研究了不同河床坡度和泄流槽横断面对堰塞坝溃决过程的影响规律。试验结果表明:(1)堰塞坝溃决过程可分为3个阶段。阶段Ⅰ:溃口形成阶段,溃决流量较小;阶段Ⅱ:溃口发展阶段,水流下蚀及侧蚀强烈,溃决流量到达峰值;阶段Ⅲ:衰减-平衡阶段,粗化层形成,溃口停止发展。(2)河床坡度增加意味着下游坝坡、坝顶及泄流槽的坡度增加,导致水流侵蚀能力增强,溃口下切迅猛,因此在0°~3°范围内河床坡度越大,峰值流量越大,峰现时间越早,溃决流量过程曲线越趋于“高瘦型”,且残留坝高越小。(3)泄流槽横断面型式不同导致其槽深、槽宽和侧坡坡度不同,进而影响溃口发展和溃决流量。三角形槽的水土作用面积小,溃口下切及展宽速率最高,峰值流量最大,峰现时间最早;梯形槽的槽底高程最高,水土作用面积最大,溃口下切速率最低,峰现时间最晚;而复合槽介于前两者之间。试验成果将为堰塞坝应急抢险和工... 相似文献
9.
针对当前土石坝溃决机理试验研究中泥沙粒径取值偏小、各砂样粒径相差不大的现状,采用粒径对比明显的两组砂样进行了土石坝漫顶溃决试验.试验表明,在给定的较强的初始冲刷条件下,粗细两种颗粒坝体的溃决过程基本一致,均是以水流的下切侵蚀为主,在坝顶下缘位置有溯源冲刷现象出现.整个溃决过程可明显分为3个阶段,第1阶段为坝顶下缘处陡坎形成阶段;第2阶段为陡坎坍塌,冲刷加剧阶段;第3阶段为出现逆行沙垄的冲刷终止阶段.试验还发现,下游坝坡对溃决过程的影响比较显著,坝坡越陡,坝顶侵蚀速率越快,洪峰值越大.另外,由于粗颗粒抗冲刷性强,同等条件下粗颗粒坝体溃决洪水过程偏矮胖,洪峰值偏小,但是值得注意的是,相比于较大的颗粒粒径差距而言,其洪峰值的差异并不是太大. 相似文献
10.
终碛坝广泛分布于世界各地的高山和极高山区。为了探究终碛坝的溃决过程,了解溃口的演变特征,文章以嘉龙错终碛坝的原位实验,模拟了终碛湖漫顶溃决过程。通过分析实验结果发现:(1)根据观察,将终碛坝溃决过程划分为坝体下游坡面冲刷、“溯源侵蚀”、出水口下切和溃口拓宽四个阶段。(2)上游湖区崩塌体激发的涌浪会造成溃口内的瞬时流量增加数倍,从而使得在有涌浪和无涌浪的条件下,“溯源侵蚀”过程出现陡坎和斜坡两种下切型。(3)通过分析溃口下切侵蚀过程,发现溃口的下切侵蚀发展过程主要受到坝体孔隙比和细粒含量的影响,并且溃口中点侵蚀率与水流剪应力存在一定的线性关系,符合线性侵蚀模型。通过分析发现,嘉龙错终碛坝的侵蚀系数为0.051,临界启动应力为237.64 Pa。与堰塞坝相比,可侵蚀系数比更小,而临界启动应力更大。 相似文献
11.
为进一步了解堰塞坝溃坝过程,开展了9组水槽模型试验,对溃口纵向下切和溯源发展过程进行了系统分析,并讨论了上溯源点移动速度与溃口水深之间的关系。研究发现:非黏性堰塞坝溃坝过程中,冲刷面与底床的夹角时刻发生变化,上、下溯源点位置不固定但也不能完全发展到坝踵;上、下坡面坡度增大到最大值1:1.5时,下溯源点到下游坝趾的最大距离与坝体沿水流方向长度的比值(xp*/xd*,反映下溯源点最终相对位置)对应降低到最小值0.24和0.18;坝体相对尺寸从1减小到1/2时,xp*/xd*值从0.38增大到0.47。上溯源点的无量纲移动速度是不断变化的,在无量纲时刻为0.13时,其x,y分量分别达到峰值0.94和0.32;上溯源点处溃口水深出现时刻相对移动速度峰值点出现时刻有延迟,大概延迟0.04个无量纲时间。 相似文献
12.
对土石坝溃决模拟技术的最新研究成果进行了总结和评价,在此基础上对该研究领域今后的研究工作提出了若干建议,包括:应研究提出不同坝型溃决可能性分析评价方法;针对不同坝型开展溃坝离心模型试验,揭示在不同致灾因子作用下,土石坝溃决机理和溃口发展过程;开展土石坝初始管涌形成以后发展过程的试验研究,揭示孔流转变为堰流的控制条件;针对溃坝水流的流线曲率较大、溃坝水流大多是非恒定超临界流以及筑坝材料粒径级配范围变化大等特点,开展大型溃坝水工水力学模型试验,揭示不同坝型的溃口流量过程、泥沙输移及下游河道洪水演进规律。 相似文献
13.
Christopher I. Massey Vernon Manville Graham H. Hancox Harry J. Keys Colin Lawrence Mauri McSaveney 《Landslides》2010,7(3):303-315
The summit crater of Mt Ruapehu volcano normally hosts a 15.4-ha warm lake, whose water has been repeatedly wholly or partly
ejected by explosive and extrusive eruptions. Some of the larger eruptions have modified the lake outlet by burying it under
unconsolidated tephra (volcanic ash and blocks), creating a dam-break flood hazard independently of the occurrence of an eruption.
Eruptions in 1995 and 1996 followed this sequence; a break-out flood was anticipated and a warning system was installed to
mitigate the risk from this event and subsequent lahars in the same catchment. The 11-year filling time allowed much planning
and rehearsal. The warning system involved manual inspections of dam integrity, and seepage and lake-level monitoring to constrain
the likely failure window, and telemetered instruments including a tripwire and geophones to detect breaching of the dam and
propagation of the outbreak flood. The dam-collapse sequence, captured by a time-lapse camera, involved a series of retrogressing
landslides initiated and accelerated by seepage forces and toe scour when the lake was 1.1 m below overtopping. The barrier
failed in two phases on 18th March, 2007, beginning at 09:55 (NZST), with rapid retreat of one of the erosion scarps on the
downstream slope of the eastern barrier, initiated by internal erosion. Headward retrogression of the scarp into the barrier
formed an initial breach in the dam, after which increasing outflow led to erosion and undercutting of the wider downstream
toe of the western barrier. A final, larger dam breach occurred between 11:21 and 11:22 as slope instability caused retrogressive
failure of the remaining barrier. Five-hundred meters downstream of the dam, a large landslide was reactivated by toe scour
during the flood, contributing about a million cubic meters of solid material to the volumetric bulking of the outflow, which
reached the coast, 215 km away, 17 h later. The success of the planning and warning system allowed the whole event to occur
with little damage to infrastructure and without causing injury. 相似文献
14.
Risk assessment development considering the failure of landslide dams often requires the estimation of peak outflow through the breach. The empirical equations based on data from case studies tend to be the first direct approach. This paper conducted an uncertainty analysis when these empirical relations were utilized to predict the peak outflow of a breached landslide dam. The results suggest that the relations derived from manmade dams or embankments typically overestimate the peak outflow about 1/5 to 3/4 of an order of magnitude; and the relations derived from the database of landslide dams have much smaller mean prediction errors and also exhibit broad uncertainty bands. Application of the uncertainly analysis was illustrated by the Tangjiashan landslide dammed lake, formed during 2008 Wenchuan earthquake. In addition, the predicted results from Eq. 1 deduced herein were considered to be the reliable estimate of peak outflow through the breach of landslide dam. 相似文献
15.
Landslide dam failure can trigger catastrophic flooding in the downstream. However, field observation of such flooding is
rarely available, while laboratory experimental studies are sparse. The mechanism of landslide dam failure and the flood has
so far remained insufficiently understood. Here, we present an experimental investigation of landslide dam failure and the
flood. A total of 28 runs of experiments are carried out in a flume of 80 m × 1.2 m × 0.8 m, with differing inflow discharge,
dam composition, dam geometry, and initial breach dimension. An array of twelve automatic water-level probes is deployed to
measure the stage hydrographs along the flume, and the video recording of the dam failure processes facilitates an estimation
of the widening of initial breach. Under the present experimental conditions with dams composed of homogeneous materials,
landslide dam failure is primarily caused by erosion of overtopping flow, and lateral mass collapse is also considerable during
the cause of breach widening. Cohesive clay may act to mitigate the seepage through the dam and thus its subsidence and appreciably
modulate the dam failure process and the flood. However, the impacts of clay may be readily overwhelmed by a large inflow
discharge and initial breach. Gravels in the dam may appreciably depress the rate of the dam failure process and thus modify
the flood. The present work provides new experimental data set for testing mathematical models of the flood flow due to landslide
dam failure. 相似文献
16.
Analysis of human risks due to dam break floods—part 2: application to Tangjiashan landslide dam failure 总被引:1,自引:1,他引:0
The Tangjiashan landslide dam was formed during the Ms8.0 Wenchuan earthquake in 2008 and posed high risks to 1.2?million people downstream the dam. A human risk analysis model (HURAM) reported in the companion paper is applied to evaluate the human risk in the Tangjiashan landslide dam failure. The characteristics of this landslide dam are introduced first. The breaching parameters in two cases (i.e., the actual case and a high erodibility case) are predicted with a physically based model, and the flood routing processes in these two cases are simulated using numerical analysis. The population at risk downstream of the landslide dam is then obtained based on the results of the flood routing simulations. Subsequently, the human risks are analyzed with HURAM using Bayesian networks. Fourteen influence parameters and their interrelationships are considered in a systematic structure in the case study. A change in anyone of them may affect the other parameters and leads to loss of life. HURAM allows not only cause-to-result inference, but also result-to-cause inference by updating the Bayesian network with specific information from the study case. The uncertainties of the parameters and their relationships are studied both at the global level using multiple sources of information and at the local level by updating the prior probabilities. 相似文献
17.
堤防溃决时溃口附近水流形态及溃决流量变化过程的正确描述是指导溃口堵复及时避险、预测溃堤洪水演进并进一步评估淹没损失的前提条件.通过弯道水槽中的概化模型试验,根据无粘性土堤防漫顶溃决的溃口变化和水流运动特征,将无粘性土堤防溃决过程分为漫流、冲槽、展宽及稳定4个阶段.试验系统研究了堤防溃决后河道以及溃口附近水位的变化过程,研究了河道洪水流量、洪水位和筑堤材料对溃口处水位的影响.基于大量的试验资料,进一步归纳总结出溃决流量与溃口口门宽度及溃口处水头变化之间的关系. 相似文献
18.
Dam-break risk analysis of the Attabad landslide dam in Pakistan and emergency countermeasures 总被引:1,自引:0,他引:1
Xiaoqing Chen Peng Cui Yong You Zunlan Cheng Asif Khan Chengyin Ye Shu Zhang 《Landslides》2017,14(2):675-683
The Attabad landslide dam caused significant property losses and many human casualties in Pakistan, and also greatly affected the operation of the China-Pakistan Karakoram Highway (KKH). This paper discusses the risk of dam breach and hazards to the KKH project construction site following a dam breach. The paper examines the following three topics. (1) The geomorphologic dimensionless blockage index (DBI) and the analogy method were used to analyze the stability of the Attabad landslide dam. The long-term behaviors of landslide dams downstream of the Attabad landslide dam indicate that the risk of a dam breach exists, but the probability of a total dam failure is low. (2) The peak discharge of a potential breach of the Attabad landslide dam was calculated for scenarios in which 1/4, 1/3, 1/2, and total failure of the dam was breached. The potential breach discharge decreases with the downstream distance. (3) The potential impacts of the landslide dam breach on the KKH project construction site were analyzed. Based on the composition of the landslide dam, the probability of a 1/3 dam breach is high. To ensure the safety of downstream areas, disaster preparedness plans that correspond to the 1/2 dam breach scenario should be developed. Based on experience in addressing the landslide dam that was caused by the Wenchuan Earthquake, artificial controlled drainage measures are suggested and provide a technical reference for addressing the Attabad landslide dam and achieving recovery and normal operation of KKH. 相似文献
19.
Benjamin Dewals Sébastien Erpicum Sylvain Detrembleur Pierre Archambeau Michel Pirotton 《Natural Hazards》2011,56(3):917-939
A practical methodology has been developed for predicting flows generated by dam failures or malfunctions in a complex or
a series of dams. A twofold approach is followed. First, the waves induced in the downstream reservoirs are computed, as well
as hydrodynamic impacts induced on downstream dams and dikes are estimated. Second, the flood wave propagation and the inundation
process are simulated in the downstream valley, accounting for possible dam collapse or breaching in cascade. Two complementary
flow models are combined: a two-dimensional fully dynamic model and a simplified lumped model. At each stage, the methodology
provides guidelines to select the most appropriate model for efficiently computing the induced flows. Both models handle parametric
modeling of gradual dam breaching. The procedure also incorporates prediction of breach formation time and final width, as
well as sensitivity analysis to compensate for the high uncertainties remaining in the estimation of breach parameters. The
applicability of the modeling procedure is demonstrated for a case study involving a 70-m high-gravity concrete dam located
upstream of four other dams. 相似文献
20.
The existing empirical models do not consider the influence of material composition of landslide deposits on the peak breach flow due to the uncertainty in the material composition and the randomness of its distribution. In this study, based on the statistical analyses and case comparison, the factors influencing the peak breach flow were comprehensively investigated. The highlight is the material composition-based classification of landslide deposits of 86 landslide cases with detailed grain-size distribution information. In order to consider the geometric morphology of landslide dams and the potential energy of dammed lakes, as well as the material composition of landslide deposits in an empirical model, a multiple regression method was applied on a database, which comprises of 44 documented landslide dam breach cases. A new empirical model for predicting the peak breach flow of landslide dams was developed. Furthermore, for the same 44 documented landslide dam failures, the predicted peak breach flow obtained by using the existing empirical models for embankment and landslide dams and that obtained by using the newly developed model were compared. The comparison of the root mean square error (Erms) and the multiple coefficient of determination (R2) for each empirical model verifies the accuracy and rationality of the new empirical model. Furthermore, for fair validation, several landslide dam breach cases that occurred in recent years in China and have reliable measured data were also used in another comparison. The results show that the new empirical model can reasonably predict the peak breach flow, and exhibits the best performance among all the existing empirical models for embankment and landslide dam breaching.
相似文献