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1.
In the twenty-first century, around 200 notable dam and reservoir failures happened worldwide causing massive fatalities and
economic costs. In order to reduce the losses, managers usually define mitigation strategies identifying flooding area due
to dam break by using standalone hydrodynamic models and then importing the results within a GIS to perform risk analysis.
This two-step procedure is time expensive, error prone due to export/import requirements and not user friendly. For this reason
with this work, a new numerical model for the solution of the two-dimensional dam break problem has been implemented in the
GRASS GIS with a GIS-embedded approach. The model solves the conservative form of the 2D shallow water equations using a finite
volume method; the intercell flux is computed by one-side upwind conservative scheme extended to a two-dimensional problem.
The newly developed GIS module, among others outputs, allows to derive maximum intensity maps that can be directly used for
risk assessment. Finally, the model has been (1) tested against two standard synthetic problems referenced in literature showing
differences in estimated water depth of 2, 3 and 15% and (2) verified against official flooding map of an existing dam (Verzasca)
detecting 75% of similarity. The problem formulation, the new GRASS module and its validation is presented. 相似文献
2.
In this study, the effect of downstream lakes or ponds on dam break flow was investigated. To do this, a robust finite volume method with Harten-Lax-van Leer contact surface Riemann’s solver technique for flux evaluation has been used. For space discretization, a triangular mesh grid was used and a complete software with mesh generator was developed. A reservoir with a long downstream channel was assumed, and many scenarios such as a single lake with various lengths, widths and positions along the channel and multiple consecutive lakes as symmetric and non-symmetric with respect to the channel centerline were considered. The numerical modeling of dam break flow along the channel showed that the downstream lake can decrease the speed and depth of the dam break wave front and the amount of this wave attenuation was very dependent on the storage volume of the lake and vortexes which were established in the lake.
相似文献3.
易贡滑坡堰塞湖溃坝洪水分析 总被引:2,自引:0,他引:2
滑坡堰塞坝体主要由块石、碎石土等松散材料组成,随着上游水位的不断上升,极易失稳,一旦决口将对给下游人民的生命财产安全造成极大的威胁。因此,研究堰塞坝溃坝问题具有重要的学术意义和应用价值。2000 年 4 月 9 日,西藏林芝地区波密县易贡藏布河扎木弄沟发生大规模山体滑坡堵塞易贡藏布江,形成坝高60m,长约2500m,库容可达288108m3,体积约28108~30108m3的滑坡堰塞湖, 2000年6月10日堰塞坝溃决。本文以易贡堰塞湖溃坝为例,从连续性方程及Navier Stokes方程出发,结合标准型湍流模型,并采用VOF方法进行自由面处理,基于流体计算软件Fluent模拟分析了溃坝洪水在下游弯曲河道的演进过程及不同位置的流速变化。数值模拟结果与实测资料记录基本一致,表明该模型能够模拟溃坝洪水在地形复杂弯曲河道中的演进过程。 相似文献
4.
J. Amnyattalab H. Rezaie 《International Journal of Environmental Science and Technology》2018,15(12):2625-2636
Stability of an earth dam is affected by different factors of which the most important is seepage. One of the factors in defining the seepage rate is hydraulic conductivity coefficients in suctions and various moistures in earth dam body in which different models of soil–water retention curves are used to be defined. In this study, first the soil–water retention curves of van Genuchten and Brooks–Corey models are used to predict the soil–water retention of different body layers of 2 dams. Then, hydraulic conductivity coefficients are calculated through Mualem and Burdine’s models. Water seepage rate and the stability of dams were calculated in two phases: I. construction finalization prior to intaking water and II. rapid drawdown of water. Bishop and Morgenstern–Price methods are used to analyze the stability of dams. The stability and seepage results demonstrate that simultaneous use of Brooks–Corey’s soil–water retention curve with Mualem’s method results in the highest seepage rate in comparison with van Genuchten’s model in case of variable n, m and Burdine hydraulic conductivity. Safety factors achieved from both cases of construction finalization prior to intaking water and rapid drawdown of water demonstrated the accuracy and reliability of hydraulic coefficient prediction. 相似文献
5.
F. W. L. Kho B.Sc. M.Eng. P. L. Law M.Sc. Sc.D. S. H. Lai B.Eng. M.Sc. Ph.D. Y. W. Oon B.Eng. M.Eng. L. H. Ngu B.Eng. M.Eng. H. S. Ting B.Eng. 《International Journal of Environmental Science and Technology》2009,6(2):203-210
Mathematical simulations on dam break or failure using BOSS DAMBRK hydrodynamic flood routing dam break model were carried out to determine the extent of flooding downstream, flood travel times, flood water velocities and impacts on downstream affected residences, properties and environmental sensitive areas due to floodwaters released by failure of the dam structure. Computer simulations for one of the worse case scenarios on dam failure using BOSS DAMBRK software accounted for dam failure, storage effects, floodplains, over bank flow and flood wave attenuation. The simulated results reviewed a maximum flow velocity of 2.40 m/s with a discharge of approximately 242 mз /s occurred at 1.00 km downstream. The maximum discharge increased from 244 m3/s (flow velocity = 1.74 m/s occurred at 8th. km) to 263 m3/s (flow velocity = 1.37 m/s occurred at 12th. km); about a 39% drop in flow velocity over a distance of 4.00 km downstream. If the entire dam gives way instantly, some spots stretching from 0.00 km (at dam site) to approximately 3.40 km downstream of the dam may be categorized as “danger zone”, while downstream hazard and economic loss beyond 3.40 km downstream can be classified as “low” or “minimal” zones. 相似文献
6.
堰塞坝溃坝模型实验研究综述 总被引:1,自引:0,他引:1
堰塞坝是天然形成的坝体,结构比较松散、稳定性差、渗透作用强,发生溃决危险性大、概率高、突发性强,而且破坏可能性高及产生的洪水威胁人们的生命和财产安全,因此需要系统、全面的研究。作者从单坝溃坝、级联溃坝及堰塞坝处置的溃坝试验进行详细的回顾,总结及分析了国内外学者在堰塞坝溃坝模型实验取得的成果及局限性,进一步分析了单坝溃决的颗粒级配、密实度、含水率、沟床坡度等因素,最后讨论了溃坝因素与溃决模式、溃决特征、溃决流量、溃口演化的关系。基于模型实验相似理论及模型比尺、实验测试手段、堰塞坝处置三个方面,提出了今后的研究重点。 相似文献
7.
M. Pastor T. Blanc B. Haddad S. Petrone M. Sanchez Morles V. Drempetic D. Issler G. B. Crosta L. Cascini G. Sorbino S. Cuomo 《Landslides》2014,11(5):793-812
Hazard and risk assessment of landslides with potentially long run-out is becoming more and more important. Numerical tools exploiting different constitutive models, initial data and numerical solution techniques are important for making the expert’s assessment more objective, even though they cannot substitute for the expert’s understanding of the site-specific conditions and the involved processes. This paper presents a depth-integrated model accounting for pore water pressure dissipation and applications both to real events and problems for which analytical solutions exist. The main ingredients are: (i) The mathematical model, which includes pore pressure dissipation as an additional equation. This makes possible to model flowslide problems with a high mobility at the beginning, the landslide mass coming to rest once pore water pressures dissipate. (ii) The rheological models describing basal friction: Bingham, frictional, Voellmy and cohesive-frictional viscous models. (iii) We have implemented simple erosion laws, providing a comparison between the approaches of Egashira, Hungr and Blanc. (iv) We propose a Lagrangian SPH model to discretize the equations, including pore water pressure information associated to the moving SPH nodes. 相似文献
8.
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。 相似文献
9.
基于结构网格,采用有限体积法建立了二维水动力学模型,模拟溃坝洪水在复杂实际地形条件下的流动过程。该模型采用中心迎风格式求解界面通量,并结合对界面变量的线性重构,使其具有空间上的二阶精度。分别采用中心差分方法和半隐式方法对底床坡度项和摩擦阻力项进行离散,保证了模型的和谐性和稳定性。对于复杂地形条件下溃坝洪水的模拟,负水深的产生是影响模型稳定的关键因素。当库朗特数小于0.25时,模型能够保证任何时刻的计算水深都是非负的,而无需对负水深单元进行特殊处理。因此,相比于现有的大部分溃坝洪水模型,该模型具有更强的鲁棒性和稳定性。 相似文献
10.
受地形影响,西南山区水源以水库为主,由于大部分水库修建时间较早,在西南季风气候降水集中影响下,存在较大的溃坝风险。溃坝洪水突发性与破坏性极强,进行水库溃坝洪水计算及洪水演进分析,是在水库大坝发生突发性安全事故时科学应对的基础。结合西南山区实际,优选溃坝洪水计算与洪水演进模型,并以云南省昌宁县河西水库为例,分析确定相关参数,分析指出了西南山区水库溃坝形态以全溃为主,具有溃坝洪水量极大、洪水演进迅速的特点。研究不仅可为河西水库制定大坝安全管理应急预案提供技术支撑,也能为该地区水库溃坝洪水及其演进分析提供参考借鉴。 相似文献
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12.
Ashok K. Chugh 《国际地质力学数值与分析法杂志》2013,37(17):2833-2859
Stability of a circular earth dam is assessed for radial cracking potential and static slope stability using continuum mechanics‐based three‐dimensional numerical models. Comparisons of numerical model results for a circular water tank with vertical walls and different radii with their analytical counterparts are included to support the validity of the ideas and their implementation in the continuum mechanics‐based computer program used. Effects of sloping wall faces and Poisson's ratio on computed deformations and stresses are also included. The same numerical models are used to assess stability of a circular dam in terms of factor‐of‐safety and associated failure surface. Three‐dimensional slope stability analysis results are compared with continuum based two‐dimensional slope stability analysis results to assess the magnitude of 3D effects. Example problems are included to illustrate the use of ideas presented. Published 2013. This article is a U.S. Government work and is in the public domain in the USA. 相似文献
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14.
对3种粗颗粒土进行了常规三轴CD试验、K0压缩试验和等应力比路径试验,根据三轴试验数据标定UH(unified hardening,统一硬化)模型的参数,然后模拟另外两种路径下的应力?应变关系,并与邓肯E-B模型进行比较。结果表明:UH模型能合理地描述不同应力路径下粗颗粒土的力学特性,而邓肯E-B模型的预测结果则较差,验证了UH模型对粗颗粒土的适用性。最后利用UH模型对某心墙堆石坝进行了应力变形三维有限元分析,并将计算结果与邓肯E-B模型及现场监测值进行比较。对比显示:在坝体变形和应力的定性分布规律上,UH模型的计算结果与邓肯E-B模型基本一致;而在定量上,UH模型得到的坝体变形总体上更接近现场监测值,验证了UH模型在土石坝工程中的适用性和合理性。 相似文献
15.
Hydrological modeling of typhoon-induced extreme storm runoffs from Shihmen watershed to reservoir, Taiwan 总被引:1,自引:1,他引:0
Typhoon-induced extreme storm runoffs often cause flood hazards. In this study, a hydrological model (HEC-HMS) was applied to Shihmen watershed located in Taiwan. Three typhoon-induced storm events, with return period ranging from 1 to 90 years, were used in case studies to characterize storm runoff. With a 5-year storm for model calibration, model parameters were carefully calibrated through the comparison between model simulated and observed flows at a stream gage station. The calibrated model was then verified for a 90-year storm and a 1-year storm event. Results indicate that the calibrated and verified HEC-HMS hydrological model is capable of providing satisfactory predictions of the typhoon-induced extreme storm runoff to support reservoir operation and flood hazard mitigation. Based on model simulations, typhoon-induced water table increases for different initial water volumes at Shihmen Reservoir was derived by adding storm-runoff volume to the reservoir’s initial elevation-volume rating curve. Water tables above the top elevation of the dam in the reservoir indicate the need for immediate water releases to avoid the risk of overflow over the dam. 相似文献
16.
Jia-Jyun Dong Yu-Hsiang Tung Chien-Chih Chen Jyh-Jong Liao Yii-Wen Pan 《Engineering Geology》2011,117(1-2):52-61
Landslides may obstruct river flow and result in landslide dams; they occur in many regions of the world. The formation and disappearance of natural lakes involve a complex earth–surface process. According to the lessons learned from many historical cases, landslide dams usually break down rapidly soon after the formation of the lake. Regarding hazard mitigation, prompt evaluation of the stability of the landslide dam is crucial. Based on a Japanese dataset, this study utilized the logistic regression method and the jack-knife technique to identify the important geomorphic variables, including peak flow (or catchment area), dam height, width and length in sequence, affecting the stability of landslide dams. The resulting high overall prediction power demonstrates the robustness of the proposed logistic regression models. Accordingly, the failure probability of a landslide dam can also be evaluated based on this approach. Ten landslide dams (formed after the 1999 Chi-Chi Earthquake, the 2008 Wenchuan Earthquake and 2009 Typhoon Morakot) with complete dam geometry records were adopted as examples of evaluating the failure probability. The stable Tsao-Ling landslide dam, which was induced by the Chi-Chi earthquake, has a failure probability of 27.68% using a model incorporating the catchment area and dam geometry. On the contrary, the Tangjiashan landslide dam, which was artificially breached soon after its formation during the Wenchuan earthquake, has a failure probability as high as 99.54%. Typhoon Morakot induced the Siaolin landslide dam, which was breached within one hour after its formation and has a failure probability of 71.09%. Notably, the failure probability of the earthquake induced cases is reduced if the catchment area in the prediction model is replaced by the peak flow of the dammed stream for these cases. In contrast, the predicted failure probability of the heavy rainfall-induced case increases if the high flow rate of the dammed stream is incorporated into the prediction model. Consequently, it is suggested that the prediction model using the peak flow as causative factor should be used to evaluate the stability of a landslide dam if the peak flow is available. Together with an estimation of the impact of an outburst flood from a landslide-dammed lake, the failure probability of the landslide dam predicted by the proposed logistic regression model could be useful for evaluating the related risk. 相似文献
17.
矿井电法探测突水陷落柱在任楼煤矿的应用 总被引:2,自引:0,他引:2
井下工作面侧帮超前探测技术是矿井直流电阻率探测新技术之一。本文阐述了该技术基本探测原理及其在陷落柱突水前探测采煤工作面内部陷落柱的应用。结果表明,该技术能探测含水导水陷落柱位置及其富水性,从而预防陷落柱突水淹井事故的发生,为煤矿井下防治水起到了重要作用。 相似文献
18.
尾矿坝垮塌机制与溃决模式试验研究 总被引:1,自引:0,他引:1
基于云南拉拉铜矿小打鹅尾矿库工程设计资料,采用现场排放尾矿砂为试验材料,进行了尾矿堆积坝在洪水情况下发生垮塌破坏的模型试验。通过水流控制系统模拟尾矿坝遭遇洪水情况,采用侧面示踪点、水位测压管、应力传感器以及数码摄像机等设备获得了尾矿坝溃决过程中坝坡的位移矢量演化、浸润线与应力的变化特性以及坝体破坏发展过程,揭示了洪水作用下尾矿坝的垮塌机制和溃决模式。试验结果发现:尾矿堆积坝的浸润线变化存在滞后性;在洪水入库致库区最高设计洪水水位过程中,靠近坝坡中部处水平方向的总应力增量较垂向总应力增量大,增大的水平应力是坝体产生破坏的重要因素之一;洪水导致坝坡尾矿砂所受的渗透力、上浮力、重力以及孔隙水压力增大,削弱了坝体材料的黏聚力,并加大了自身荷载,降低了坝体的稳定性;尾矿坝溃决模式一般为逆流渐进型,破坏先是从坡脚处发生,继而向上游发展,呈现牵引式发展,破坏的滑动面由多个弧形滑移面构成。研究成果加深了对尾矿堆积坝垮塌机制和溃决模式的认识,并在洪水灾害的预防和控制方面作了一些新的探索 相似文献
19.
卡拉水电站坝区渗流控制效应精细模拟与评价 总被引:1,自引:0,他引:1
卡拉水电站坝址区河谷狭窄,岸坡陡峻,地质条件复杂,渗漏问题突出。为减小卡拉坝区渗漏并改善大坝的渗透稳定性,工程设计采取防渗帷幕、排水孔幕和排水洞等防渗排水措施。采用子结构、变分不等式和自适应罚函数相结合的方法(简称SVA方法),结合典型溢流坝段与坝区整体渗流场分析成果,评价卡拉大坝及坝基渗流控制方案的合理性,并论证其优化的可能性。研究表明:①防渗帷幕有效雍高了帷幕上游侧岩体内的地下水位、增加了绕坝渗流的渗径长度并降低了坝基的扬压力,排水系统则显著降低了坝体内的孔隙水压力以及坝基扬压力;②排水孔幕间距对坝体内的自由面分布有着显著影响,排水孔幕间距取3.0~4.5 m是合适的。 相似文献
20.
The River Bush must reach a standard of good ecological potential (GEP) by 2015 due to the requirements of the water framework directive. The role of sediments within a water body is extremely important to all aspects of a river’s regime. The aim of this research is to investigate the effects of Altnahinch Dam on sediment distribution in the River Bush (a heavily modified water body) with comparison made against the Glendun River (an unmodified water body). Samples collected from the rivers were analysed by physical (pebble count, sieve analysis) and statistical methods (ANOVA, GRADISTAT). An increase in fine sediments upstream of the dam provides evidence that the dam is impacting sediment distribution. Downstream effects are not shown to be significant. The output of this study also implies similar impacts at other drinking water storage impoundments. This research recommends that a sediment management plan be put in place for Altnahinch Dam and that further studies be carried-out concentrating on fine sediment distribution upstream of the dam. 相似文献