共查询到20条相似文献,搜索用时 31 毫秒
1.
To investigate the movement mechanism of debris flow, a two‐dimensional, two‐phase, depth‐integrated model is introduced. The model uses Mohr‐Coulomb plasticity for the solid rheology, and the fluid stress is modeled as a Newtonian fluid. The interaction between solid and liquid phases, which plays a major role in debris flow movement, is assumed to consist of drag and buoyancy forces. The applicability of drag force formulas is discussed. Considering the complex interaction between debris flow and the bed surface, a combined friction boundary condition is imposed on the bottom, and this is also discussed. To solve the complex model equations, a numerical method with second‐order accuracy based on the finite volume method is proposed. Several numerical experiments are performed to verify the feasibilities of model and numerical schemes. Numerical results demonstrate that different solid volume fractions substantially affect debris flow movement. 相似文献
2.
Badri Bhakta Shrestha Hajime Nakagawa Kenji Kawaike Yasuyuki Baba Hao Zhang 《Natural Hazards》2012,61(2):577-602
Experience shows that debris flows containing large woody debris (driftwood) can be more damaging than debris flows without
driftwood. In this study, the deposition process of debris flows carrying driftwood was investigated using numerical simulations
and flume experiments. Debris-flow trapping due to driftwood jamming in a slit-check dam was also investigated. A numerical
model was developed with an interacting combination of Eulerian expression of the debris flow and Lagrangian expression of
the driftwood, in which the fluctuating coordinates and rotation of the driftwood were treated stochastically. The calculated
shapes and thicknesses of a debris-flow fan and the positions and orientations of the deposited driftwood on a debris-flow
fan were consistent with experimental flume results. The jamming of driftwood in a slit-check dam was evaluated based on geometry
and probability. The simulated results of outflow discharge and the proportion of driftwood passed through the slit-check
dam also agreed with the experimental results. 相似文献
3.
Hydraulic and numerical study on the generation of a subaqueous landslide-induced tsunami along the coast 总被引:1,自引:0,他引:1
Yoshinori Shigihara Daichi Goto Fumihiko Imamura Yuichi Kitamura Takayuki Matsubara Kazuaki Takaoka Kazuhiko Ban 《Natural Hazards》2006,39(2):159-177
By carrying out the hydraulic experiments in a one-dimensional open channel and two-dimensional basin, we clarified the process
of how a landslide on a uniform slope causes the generation of a tsunami. The effect of the interactive force that occurs
between the debris flow layer and the tsunami is significant in the generation of a tsunami. The continuous flow of the debris
into the water makes the wave period of the tsunami short. The present experiments apply numerical simulation using the two-layer
model with shear stress models on the bottom and interface, and the results are compared. The simulated debris flow shows
good agreement with the measured results and ensures the rushing process into the water. We propose that the model use a Manning
coefficient of 0.01 for the smooth slope and 0.015 for the rough slope, and a horizontal viscosity of 0.01 m2/s for the landslide; an interactive force of 0.2 for each layer is recommended. The dispersion effect should be included
in the numerical model for the propagation from the shore. 相似文献
4.
Fávero Neto Alomir H. Askarinejad Amin Springman Sarah M. Borja Ronaldo I. 《Acta Geotechnica》2020,15(10):2757-2777
We present an updated Lagrangian continuum particle method based on smoothed particle hydrodynamics (SPH) for simulating debris flow on an instrumented test slope. The site is a deforested area near the village of Ruedlingen, a community in the canton of Schaffhausen in Switzerland. Artificial rainfall experiments were conducted on the slope that led to failure of the sediment in the form of a debris flow. We develop a 3D mechanistic model for this test slope and conduct numerical simulations of the flow kinematics using an SPH formulation that captures large deformation, material nonlinearity, and the complex post-failure movement of the sediment. Two main simulations explore the impact of changes in the mechanical properties of the sediment on the ensuing kinematics of the flow. The first simulation models the sediment as a granular homogeneous material, while the second simulation models the sediment as a heterogeneous material with spatially varying cohesion. The variable cohesion is meant to represent the effects of root reinforcement from vegetation. By comparing the numerical solutions with the observed failure surfaces and final free-surface geometries of the debris deposit, as well as with the observed flow velocity, flow duration, and hot spots of strain concentration, we provide insights into the accuracy and robustness of the SPH framework for modeling debris flows.
相似文献5.
To simulate debris flow run-out, the governing equations for free-surface shallow flow are corrected by setting the basal flow resistance coefficients with the quadratic rheological friction model. A well-balanced numerical scheme is developed for its run-out simulation over irregular topography. A linear reconstruction is adopted for improving the spatial accuracy of the numerical scheme. Considering the complex friction terms of governing equations of debris flow, they are estimated with a full implicit scheme for ensuring stability of the numerical scheme. The validity check of run-out simulation is implemented based on general knowledge of fluid, and a well-studied case occurred in the Xiezi Gully in Yingxiu Town, Sichuan Province of China. For practical purpose, the present numerical scheme is used for run-out prediction of debris flow in Xiaojia Gully of Panzhihua City, Sichuan Province of China. Our work aims to present a well-balanced numerical scheme for debris flow run-out simulation prediction, which can be applied quite conveniently to solve other kinds of debris flow models and helpful to promote the development in debris flow numerical calculation. 相似文献
6.
Ray Arunava Verma Harshal Bharati Ashutosh Kumar Rai Rajesh Koner Radhakanta Singh Trilok Nath 《Natural Hazards》2022,110(3):2303-2327
Debris flow has caused severe human casualties and economic losses in landslide-prone areas around the globe. A comprehensive understanding of the morphology and deposition mechanisms of debris flows is crucial to delineate the extent of a debris flow hazard. However, due to inherent complex field topography and varying compositions of the flowing debris, coupled with a lack of fundamental understanding about the factors controlling the geomaterial flow, interparticle interactions and its final settlement resulted in a limited understanding of the flow behaviour of the landslide debris. In this study, a physical model was set up in the laboratory to simulate and calibrate the debris flow using PFC, a distinct element modelling-based software. After calibration, a case study of the Varunavat landslide was taken to validate the developed numerical model. Following validation with an acceptable level of confidence, several models were generated to evaluate the effect of slope height, slope angle, slope profile, and grain size distribution of the dislodged geomaterial in the rheological properties of debris flow. Both qualitative and quantitative analysis of the landslide debris flow was performed. Finally, the utility of retaining wall and their effect on debris flow is also studied with different retaining wall positions along the slope surface.
相似文献7.
Hazard assessment of debris flows in the Wenchuan earthquake-stricken area,South West China 总被引:1,自引:0,他引:1
The Longxi river basin with the city of Dujiangyan, in the Sichuan province of South West China, belongs to the seismic area of the May 12, 2008 Wenchuan earthquake. Lots of loose co-seismic materials were present on the slopes, which in later years served as source material for rainfall-induced debris flows. A total of 12 debris flows, were triggered by heavy rainfall on August 13, 2010 in the study area. The FLO-2D numerical analysis software was adopted to simulate debris flows intensity, including movement velocities and maximum flow depths. A comparison of the measured fan spreading with the simulation results, the evaluation parameter Ω was used to verify accuracy of simulation, the results show Ω values ranging between 1.37 and 1.65 indicating relative good simulation results. This study also estimated the flood hydrograph for various recurrence intervals (20, 100, and 200 years, respectively) to perform scenario simulations of debris flows, and followed Swiss and Austrian standards to establish a debris flow hazard classification model on the basis of a combination of the debris flow intensity and the recurrence period. This study distinguishes three hazard classes: low, medium, and high. This proposed approach generated a debris flow hazard distribution map that could be used for disaster prevention in the Wenchuan earthquake-stricken area, South West China. 相似文献
8.
为了探究泥石流的堆积范围,利用LAHARZ软件,对北京市密云县泥石流沟喇嘛栅子南沟进行了数值模拟。结合泥石流沟小流域1:10 000数字高程模型图,模拟了泥石流的堆积范围。首先利用中国部分地区泥石流体积和堆积范围的数据资料,获得了泥石流体体积与其堆积范围的新的统计模型B=11.42V0.7156;然后通过模拟沟道与实际沟道的对比,确定了最佳沟道阈值为15 000;再结合现场调查统计和降雨历史资料,确定了10年、20年、50年和100年一遇暴雨条件的泥石流体积值,分别为56 500、72 900、94 200和113 100 m3;最后在此基础上对该条泥石流沟的堆积范围进行了预测。结果表明,100年一遇的暴雨条件下泥石流堆积面积为48 729 m2,到达最远距离约为490 m,已影响下游村庄。 相似文献
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本构模型是描述泥石流流变特性的关键,也是决定其动力过程数值模拟准确性的核心问题之一。泥石流流体属多相混合物,现有的研究已证实其存在剪切增稠或剪切变稀的现象,传统基于Bingham及Cross线性本构关系的数值模型难以准确描述泥石流流变特性。文中探讨了Bingham模型在低剪应变率下的数值发散问题,在光滑粒子流体动力学(SPH)方法框架上建立了整合Herschel-Bulkley-Papanastasiou(HBP)本构关系的稀性泥石流动力过程三维数值模型。相比传统基于浅水波假设的二维数值模型,所述方法从三维尺度建立SPH形式下的泥石流浆体纳维?斯托克斯方程并进行数值求解,可获取泥石流速度场时空分布及堆积形态,同时采用HBP本构关系描述泥石流流变特性,能在确保数值收敛的前提下反映泥石流流体在塑性屈服过渡段及大变形状态下应力?应变的非线性变化。为验证提出方法的合理性,结合小型模型槽实验观测进行了对比,结果表明数值模拟与实测结果基本吻合。 相似文献
11.
基于FLO-2D数值模拟的泥石流流动与堆积影响因素研究 总被引:1,自引:0,他引:1
泥石流和普通的山体滑坡不同,它是发生在山区的一种含有砂土和石块的暂时性水流,具有宾汉体的性质和运动阻塞双重特性,国内外众多学者在流动学实验及流动学模型的基础上,对数值模拟方法进行了大量研究,通过泥石流的灾害范围、运动速度、运动时间与实际情况进行对比,开发出适用于泥石流预报的数值模拟程序,FLO-2D就是其中之一。工程实践证明,在对泥石流组成物质的流动特性研究基础上,对泥石流移动及沉积特性进一步研究是非常重要的。本文运用FLO-2D流动模型数值模拟方法对泥石流的移动特性进行模拟,以此分析泥石流流动及堆积特性与黏性系数和屈服应力的关系。通过分析得到:随着黏性系数的增大,泥石流流速呈非线性减少;屈服应力作为影响泥石流发生及停止的因素,随着屈服应力的增大,流深也随着增大,但在泥石流移动特性中,屈服应力对泥石流流速的影响并不明显;随着黏性系数的增加,泥石流冲击力减小,而随着屈服应力的增加,泥石流的冲击力则增大。 相似文献
12.
The present paper aims at characterising Alpine anomalous basin-fan systems, in order to develop a method for hazard assessment for such fans. The review of previous studies revealed that anomalous basin-fan systems are often associated with deep-seated slope failure and present-day hazard is associated to debris flow occurrence. Taking into account these peculiarities, a modelling approach to assess the present day hazard in anomalous fans has been developed and applied to the Sernio fan (Valtellina, northern Italy). Debris flow inundation areas have been simulated by means of a numerical model (RApid Mass MovementS (RAMMS) debris flow), which includes a routine for the sediment entrainment. The range of the model parameters was defined based on previous studies, enabling a sensitivity analysis on the debris flow runout, as well as the flow height and velocity. Numerical results point out the paramount importance of entrainment phenomena on debris flow dynamic in anomalous systems, especially with reference to the bulking factor and debris yield rate that reach very high values, typical of basins with unlimited solid supply. 相似文献
13.
在缺失可靠降雨数据的地区,为解决泥石流暴发频率这一现实问题,从泥石流形成机理出发,由泥石流堆积特征反演形成条件,构建了基于数值模拟的泥石流暴发频率计算模型。该模型利用泥石流固体物质量估算模型和流域洪水流量推算模型,确定固体物质量、洪水流量、泥沙体积浓度后,通过FLO-2D流体模型计算得到与实际情况最符合的模拟情景,即可反推出已发泥石流事件的暴发频率。并以7 4石棉县马颈子沟和熊家沟泥石流为例,计算出两处泥石流的暴发频率皆为100年一遇,案例研究表明,该模型具备定量确定泥石流暴发频率的能力,对于泥石流预警预报和防灾减灾具有较强的理论和实践意义。 相似文献
14.
洮河流域中游位于甘肃省南部,属泥石流高发区。耳阳河是洮河流域中游的一条重要支流,泥石流灾害尤其严重。为研究甘肃省南部小流域泥石流灾害的危险性,以耳阳河流域为研究对象,选取流域内居民相对集中的6条泥石流沟,用FLO-2D模型模拟了2012年5月10日实际降雨条件下的泥石流运动特征和堆积特征,得到了泥石流流量随时间的变化曲线、泥石流流体深度和流速在沟谷不同地段的空间分布,对“5·10”泥石流灾害过程进行了重现。模拟结果表明:泥石流爆发15~30 min后达到洪峰,约3 h后流量逐步回落;泥石流流动速度在流通区快,到沟口迅速下降,固体物质淤积阻塞河道。通过野外现场调查和遥感解译,发现模拟得到的泥石流发生过程、堆积区分布、泥石流影响区与现场调查和访问得到的实际情况基本相符。进而,采用相同的方法和参数,对2.0%和0.2%降水频率下泥石流的堆积范围、深度和流速进行了模拟分析,分别制作了上述工况下的泥石流危险性分区图,圈定了潜在威胁较大的人口聚集区,为耳阳河流域泥石流灾害的预防和治理提供了依据,也为类似泥石流提供了一种危险性分析的技术方法。 相似文献
15.
针对泥石流灾害沟谷图像分类问题,文章对Resnet18网络进行改进,提出了一种改进的卷积神经网络模型。通过在网络结构中加入残差注意力模块,解决了原模型提取图像特征较差、边缘模糊的问题,改进后的网络能精确捕捉到泥石流灾害沟谷图像中的轮廓和内部山脊信息。此外,文章还对多种注意力机制结构进行了实验对比,分析其差异性,得出最适... 相似文献
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Hazard assessment model for debris flow prediction 总被引:4,自引:3,他引:1
Debris flow disasters have plagued Taiwan in recent decades, and caused casualties and destruction of property. Several methods,
including the numerical method, statistical method, and experimental method, have been adopted in recent years to predict
debris flow, and more recently, the neural network (NN) and the genetic algorithm (GA) methods have been introduced to simulate
the occurrence of debris flows. This study proposes using the GA to weigh seven important variables according to principles
similar to natural selection. The study then simultaneously inputs these variables into a NN model to predict debris flow
occurrences based on relevant factors. There were 154 potential cases of debris flow collected from eastern Taiwan and fed
into the model for testing. The average ratio of successful prediction reached 94.94%, which demonstrates that the proposed
model can provide stable and reliable results for predicting debris flow in hazard mitigation and guard systems. 相似文献
18.
泥石流危险性分区及其在泥石流减灾中的应用 总被引:1,自引:1,他引:1
泥石流是一种突发性山地灾害,至今尚缺乏准确有效的预报方法。减灾工程也只能对一定规模的泥石流起到防御作用。泥石流危险性分区在泥石流减灾中具有重要作用。以泥石流运动数值模拟为基础,以数值模拟获得的流速和流深等参量为分区指标的危险性分区是泥石流危险性分区研究的重点和发展方向。其中,泥石流危险性动量和动能分区充分反映了泥石流的破坏能力,可以提供更为精确的定量化的分区结果。该类分区方法在城镇等有重要危害对象的泥石流减灾中具有广泛的应用。不仅可以应用于泥石流危险区和安全区的划定、泥石流灾害预估、泥石流临灾预案制定、泥石流抢险救灾方案制定和泥石流灾情评估等,还可以应用到山区土地利用规划、山区城镇建设规划和财产保险评估等领域,并起到防灾和减灾的作用。 相似文献
19.
为了揭示雅鲁藏布江色东普沟2018年10月17日冰崩—堵江—溃决灾害链的动力演化过程,基于Massflow数值模拟仿真平台,使用Fortran编程语言,根据研究区域地质条件特征对程序进行二次开发以优化Voellmy模型,模拟冰崩—泥石流动力过程;将模拟泥石流得到的堰塞坝体嵌入地形中,运用ArcGIS计算堰塞湖范围及体积,通过Manning模型模拟堰塞湖溃决洪水动力过程。采用分段模拟法再现冰崩—泥石流—堵江—堰塞湖—溃坝的完整动力过程,对泥石流运动过程中的流速、流深,坝体高度,溃决洪水的流深、流速等参数进行定量化研究,为色东普流域的防灾减灾工作提供有效支撑。为了揭示雅鲁藏布江色东普沟2018年10月17日冰崩-堵江-溃决灾害链的动力演化过程,采用Massflow数值模拟仿真平台,以Fortran语言为编程手段,根据研究区域地质条件特征对程序进行二次开发优化Voellmy模型,模拟冰崩-泥石流动力过程;将模拟泥石流所得到的堰塞坝体嵌入地形中,采用ArcGIS计算堰塞湖范围及体积,通过曼宁模型模拟堰塞湖溃决洪水动力过程。采用分段模拟法再现冰崩-泥石流-堵江-堰塞湖-溃坝的完整动力过程,对泥石流运动过程中的流速、流深,坝体高度,溃决洪水的流深、流速等参数进行定量化研究,为色东普流域的防灾减工作提供有效支撑。 相似文献
20.
基于GIS泥石流二维数值模拟 总被引:2,自引:0,他引:2
为了模拟泥石流的运动规律,预测降雨诱发的泥石流到达距离和泛滥范围,减少和避免泥石流引起的灾害,给出了一个模拟泥石流运动的二维数值模型。由于GIS中的栅格网络数据可以直接作为有限差分的网格,二维数值模型可用有限差分来求解。模型应用于2003年7月20日发生在日本九州南部熊本县水俣市宝川区集村的泥石流。模拟再现了这个真实泥石流的传播和泛滥的过程,并与实际检测结果很吻合,验证了这个深度积分的二维数值模型的有效性和实用性。模型可用于预测泥石流的流动距离和泛滥范围,以及泛滥范围内的危险房屋和路段,也可以用于泥石流灾害的风险性分析。 相似文献