共查询到20条相似文献,搜索用时 15 毫秒
1.
Comparison of high-resolution TRMM-based precipitation products during tropical cyclones in the North Indian Ocean 总被引:3,自引:0,他引:3
Debris flow moves in the form of surge waves and consists of dozens or even hundreds of surges that are separated in time
and space and have a variety of appearances, as exemplified in Jiangjia Gully, China. Observations there indicate that the
deposit is made up by superposition of successive surges and deposit of a single surge is in effect a “frozen” surge. Then
the study of debris flow is reduced to the study of surge sequence, which leads to a probabilistic picture of debris flow.
This study attempts to find the probability distribution of velocity of surge using a huge data set of Jiangjia Gully. Statistics
of the data shows that the velocity satisfies the Weibull distribution, which is believed to be universally valid because
the distribution parameters vary little between events, with the shape parameter being well related to the average of velocity.
It follows that the same distribution applies also to other quantities of debris flow, such as the flow depth and the discharge.
Therefore, the distribution can be used to assess the magnitude and overflow range of a potential debris flow, as well as
to the parameter calculation for engineering design. 相似文献
2.
泥石流往往以阵流群的形式出现,不同阵流参数具有统一的统计分布,意味着阵流序列隐含着深层的系统信息。文中根据蒋家沟泥石流观测数据,揭示阵流序列的自相关性和时空变化特征,进而确立其整体性。Hurst指数是刻画序列相关性的指标。阵流的流量、速度和时间间歇序列的Hurst指数值均大于05,从而证明序列具有长程相关性;另一方面,将阵流作为其运动参数(如流速、流量、间歇时间)组所确定的点,则一个泥石流事件为参数空间的一个点集,且集中在一个狭小区域,直观表现了阵流在时空的聚集特征,这是序列整体性的又一特征。阵流序列的这些基本特征,意味着不同泥石流事件背后隐藏着同一个动力学机制,即泥石流作为流域行为(而不是流体运动)的系统动力学。 相似文献
3.
A size classification for debris flows 总被引:4,自引:0,他引:4
A 10-fold classification for debris flow size is proposed based on total volume, peak discharge and area inundated by debris. Size classes can be used for regional overview studies where detailed site investigations are either unnecessary, too costly or where the highest hazard and risk creeks need to be identified for further study. They are also useful to compare the regional impact between affected areas and the effects of rainstorms, and they allow lay-people to obtain an understanding of debris flow magnitude and consequences. Finally, different size classes allow the estimation of travel times to points of interest based on empirically derived equations. It is proposed that agencies concerned with debris flows should establish a documentation of debris flow size according to this classification, which serves as a data base for hazard and risk planning. 相似文献
4.
Song Dongri Bai Yitong Chen Xiao Qing Zhou Gordon G. D. Choi Clarence E. Pasuto Alessandro Peng Peng 《Landslides》2022,19(5):1165-1177
Debris-flow impact load is one of the key parameters for design of engineering countermeasures. The multiple-surge load model is a remarkable progress in estimating the debris-flow impact load, which clearly delineates the contribution of each surge to the total impact load and the corresponding acting points. In order to better understand the impact process of channelized debris flow against flexible barrier, a series of medium-scale flume experiments with varying debris-flow volumetric solid concentration (0.40/0.50/0.55) were conducted. Especially, surge impact behavior is focused so that the predictability of the multiple-surge load model could be assessed. The flume and model flexible barrier were instrumented so that both the barrier dynamic response and the debris-flow properties (flow regime) could be correlated to facilitate the assessment. The results show that multiple-surge load model well predicts the total impact load. However, due to the simplification in the impact process, the interaction between the mobile phase (surge) and the deposited phase is ignored, resulting in discrepancy in the load distribution between the model prediction and experimental result. The remixing of deposited debris by the subsequent surges leads to downward momentum transfer to the lower section of barrier, which should be regarded as an adverse scenario of the design of flexible-barrier anchor capacity.
相似文献5.
Jian-qi Zhuang Peng Cui Jian-bing Peng Kai-heng Hu Javed Iqbal 《Environmental Earth Sciences》2013,68(5):1391-1403
The 12 May 2008 Wenchuan earthquake (Ms 8.0) in China, produced an estimated volume of 28 × 108 m3 loosened material, which led to debris flows after the earthquake. Debris flows are the dominant mountain hazards, and serious threat to lives, properties, buildings, traffic, and post-earthquake reconstruction in the earthquake-hit areas. It is very important to understand the debris flow initiation processes and characteristics, for designing debris flow mitigation. The main objective of this article is to examine the different debris flow initiation processes in order to identify suitable mitigation strategies. Three types of debris flow initiation processes were identified (designated as Types A, B, and C) by field survey and experiments. In “A” type initiation, the debris flow forms as a result of dam failure in the process of rill erosion, slope failure, landslide dam, or dam failure. This type of debris flow occurs at the slope of 10 ± 2°, with a high bulk density, and several surges following dam failure. “B” type initiation is the result of a gradual increase in headward down cutting, bank and lateral erosion, and then large amount of loose material interfusion into water flow, which increases the bulk density, and forms the debris flow. This type of debris flow occurs mainly on slopes of 15 ± 3° without surges. “C” type debris flow results from slope failures by surface flow, infiltration, loose material crack, slope failure, and fluidization. This type of debris flow occurs mainly on slopes of 21 ± 4°, and has several surges of debris flow following slope failure, and a high bulk density. To minimize the hazards from debris flows in areas affected by the Wenchuan earthquake, the erosion control measures, such as the construction of grid dams, slope failure control measures, the construction of storage sediment dams, and the drainage measures, such as construction of drainage ditches are proposed. Based on our results, it is recommend that the control measures should be chosen based on the debris flow initiation type, which affects the peak discharge, bulk density and the discharge process. The mitigation strategies discussed in this paper are based on experimental simulations of the debris flows in the Weijia, Huashiban, and Xijia gullies of old Beichuan city. The results are useful for post-disaster reconstruction and recovery, as well as for preventing similar geohazards in the future. 相似文献
6.
The erosion and deposition of debris flows at Jiangjia Gully in Dongchuan section of Yunnan province, southwestern China,
was surveyed at 12 cross sections from 1999 to 2003. Deposition occurred in most sections because of the low debris-flow magnitude.
The result was an increase in their elevations except for two sections at D17 and D19, where the channel was diverted in September
1999. As the annual sediment discharge of debris flow increased, the deposited volume decreased in the upper channel and increased
in the lower channel. In each debris flow event, the erosion or deposition at the upper and the lower channel were different,
but the eroded/deposited volume and the trend of erosion or deposition were similar between the neighboring sections. The
average elevation change of all cross sections between consecutive surveys can reasonably represent the debris flow influence
on the channel. Its relationship with the total sediment discharge between two surveys follows a three-stage pattern: when
debris flow magnitude is small, deposition in the channel increases with the magnitude. When the magnitude reaches a certain
level, the deposition begins to decrease and eventually erosion takes place. In three typical cross sections which had similar
channel width, the debris flow showed a clear trend that the deposited volume decreased, while the eroded volume increased
as the discharge of debris flow sediments increased. 相似文献
7.
2011年6月5日至6月6日,贵州望谟县发生连续强降雨,引发境内纳包沟泥石流灾害,给当地居民的生命和财产造成巨大损失。本研究着重分析了纳包沟泥石流的物源、地形和降雨因素,指出该地区降雨强度大,流域内30°~40°坡度范围比例最大,最有利于浅层滑坡的发育,滑坡进而为泥石流的暴发提供主要物源;进一步得出泥石流的特征和动力学参数,泥石流为稀性泥石流,最大洪峰流量25 m3/s,泥石流一次冲出固体总量约6 100 m3。该次泥石流的形成机理为浅层滑坡引起的滑坡型泥石流。针对纳包沟的特点,当地政府和居民都应高度重视并实施相应的生物和工程措施以预防泥石流的发生。 相似文献
8.
舟曲“8.8”特大泥石流灾后治理中的关键技术研究是治理工程首先需要解决的问题,包括3个关系,即泥石流流量与排导沟断面关系、泥石流冲击力与拦挡坝强度关系、泥石流物源级配与柔性防护拦疏关系。提出了长流水小排水槽、一般山洪泥石流中排导槽、特大山洪泥石流生态景观休闲大缓冲区的设计理念,解决了百年一遇泥石流对排导沟流量与断面的设计要求。提出用钢混结构重力式拦挡墙替代原有浆砌块石重力式拦挡墙,满足了坝体对冲击力与强度的关系。建议在流通区设置SNS柔性防护网,采用钢丝绳环形网在发挥拦挡的同时达到泄水的要求。研究成果对于舟曲泥石流灾后治理设计方案具有科学价值。 相似文献
9.
当前分布式水文模型的参数确定仍主要依赖率定方式,在缺资料地区应用受到限制。建立一种基于变动饱和带产流模式和网格水滴汇流方法的分布式产汇流模型,提出利用下垫面特征来确定模型参数的方法。结合野外入渗试验和参数敏感性分析,建立地表饱和水力传导度(K0z)和饱和水力传导度随深度衰减系数(f)2个敏感性产流参数与地形参数、土壤类型数据的定量统计关系,利用野外坡面流观测试验确定坡面汇流参数,并在多个实际流域进行应用验证。结果表明:(1)利用地形参数确定K0z与使用遥感资料确定K0z的模型精度进行对比,在姜湾实验流域场次洪水模拟的平均确定性系数从0.82提高至0.86,洪峰与洪量误差的平均绝对值分别降低了2.2%和0.95%,但峰现时间误差平均绝对值增大了4%(仍控制在2 h内)。(2)建立姜湾等14个流域参数f率定值与不同深度土壤类型数据的定量关系,移用至七邻等6个流域进行验证,表明参数f关系式与模型率定的精度非常接近,相对误差的平均绝对值为2.8%,场次洪水模拟的平均确定性系数为0.83,洪峰与洪量误差的平均绝对值为10.07%和... 相似文献
10.
粘性泥石流入汇主河极大地改变了入汇区的河床堆积地貌,其动力学实质是非牛顿流体与牛顿流体的交互作用,合理描述粘性泥石流入汇区河床堆积动力过程对于划定粘性泥石流风险区范围和认知流域地貌演化具有重大意义。粘性泥石流入汇区河床堆积体时空演化过程有别于粘性泥石流在地表的纯堆积过程,通过回顾国内外学者在泥石流入汇区堆积动力学方面的研究成果,可以发现在粘性泥石流入汇区内堆积现象复杂,存在"阵性"输移、"元堆积"和龙头"水滑"等特殊现象。但目前的研究对泥石流和水流交互机制都进行了简化,一是将粘性泥石流视为挟沙水流,直接采用异重流方法;二是将粘性泥石流视为"半固态",只考虑水流的输沙特征,研究认为基于这样的简化不足以描述粘性泥石流入汇的物理过程和特殊现象,也低估了粘性泥石流交汇区冲击速度和堆积范围。同时,根据粘性泥石流入汇区河床堆积动力过程的研究现状,结合粘性泥石流入汇的特殊运动过程,提出未来可开展的工作:一是粘性泥石流入汇的物理过程和其交互机制的合理简化;二是普适性高的粘性泥石流-水流堆积动力学模型的建立。 相似文献
11.
Bin Yu 《Natural Hazards》2011,58(1):391-406
The accurate prediction of debris flows occurrence that will allow the reduction or prevention of economic losses and human
casualties is presently the most difficult aspect of debris flows studies but also the aspect that receives most attention.
Most prediction methods are based on rainfall as the basic parameter, with the moment of occurrence as only result, and without
a prediction of debris flow travel time and size. This paper takes Jiangjia Gully in Dongchuan of Yunnan Province as an example,
and considers, on the basis of the fulfillment of the essential condition: the abundant availability of loose materials, the
conditions for the formation of debris flows. Based on the mechanism of the initiation of debris flows in channels and the
volume of rainfall in the basin, this paper also gives a systematic analysis on the travel time and size of the debris flow
and suggests that the hydrological condition for forming debris flow is the unit discharge of the flood ≥0.35 m3/s.m. It uses the 10-min rainfall intensity to calculate both the run-off of the rainfall and the unit discharge caused by
the run-off, thus predicting the occurrence of debris flows. The velocity and the travel time of a debris flow can also be
determined using the unit discharge of the run-off. The total volume of debris flows can be calculated using the 10-min intensity
of rainfall and the total volume of the run-off, together with the volume concentration of the sediment in a debris flow. 相似文献
12.
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
13.
Both finite-element and finite-difference numerical models are applied to simulate storm surges and associated currents generated
by tropical cyclones that struck the coast of Andhra Pradesh, located on the east coast of India. During a cyclone, the total
water level at any location on the coast is made up of the storm surge, surge–wind wave interaction and the tide. The advanced
circulation two-dimensional depth-integrated (ADCIRC-2DDI) model based on finite-element formulation and the two-dimensional
finite-difference model of storm surges developed at IIT Delhi, hereafter referred as IITD storm surge model, are used. These
models are driven by astronomical tides at the open ocean boundary and cyclonic asymmetric winds over the surface of the computational
domain. Comparison of model simulated sea-surface elevations with coarse and finer spatial resolutions suggests that the grid
resolution near the coast is very crucial for accurate determination of the surges in addition to the local bathymetry. The
model underpredicts surges, and the peak surge location shifts more to the right of the landfall as the spatial resolution
of the model becomes coarser. The numerical experiments also demonstrate that the ADCIRC model is robust over the IITD storm
surge model for surge computations as the coastline is better represented in the former. 相似文献
14.
A nested model for the simulation of tides and storm surges in the Bohai Sea, China, has been developed based on the three-dimensional finite-volume coastal ocean model. The larger domain covers the entire Yellow Sea and Bohai Sea with a horizontal resolution of ~10 km, and the smaller domain focuses on the Bohai Sea with a fine resolution up to ~300 m. For the four representative storm surges caused by extratropical storms and typhoons, the simulated surge heights are in good agreement with observations at coastal tide gauges. A series of sensitivity experiments are carried out to assess the influence of coastline change due to land reclamation in recent decades on water levels during storm surges. Simulation results suggest that changes in coastline cause changes in the amplitude and phase of the tidal elevation, and fluctuations of surge height after the peak stage of the storm surges. Hence, for the assessment of the influence of coastline changes on the total water level during storm surges, the amplitudes and phases of both the tidal and surge heights need to be taken into account. For the three major ports in the Bohai Bay, model results suggest that land reclamation has created a coastline structure that favors increasing the maximum water level by 0.1–0.2 m. Considering that during the storm surges the total water level is close to or even exceeds the warning level for these ports, further increasing the maximum water level by 0.1–0.2 m has the potential to cause severe damages and losses in these ports.
相似文献15.
MATTHEW R. BENNETT MICHAEL J. HAMBREY DAVID HUDDART JEAN FRAN
OIS GHIENNE 《第四纪科学杂志》1996,11(6):437-449
Traditionally, geometrical ridge networks are interpreted as the product of the flow of subglacial sediment into open basal crevasses at the cessation of a glacier surge (‘crevasse-fill’ ridges). They are widely regarded as a characteristic landform of glacier surges. Understanding the range of processes by which these ridge networks form is therefore of importance in the recognition of palaeosurges within the landform record. The geometrical ridge network at the surge-type glacier Kongsvegen in Svalbard, does not form by crevasse filling. The networks consist of transverse and longitudinal ridges that can be seen forming at the current ice margin. The transverse ridges form as a result of the incorporation of basal debris along thrust planes within the ice. The thrusts were apparently formed during a glacier surge in 1948. Longitudinal ridges form through the meltout of elongated pods of debris, which on the glacier surface are subparallel to the ice foliation and pre-date the surge. This work adds to the range of landforms associated with glacier surges. 相似文献
16.
容重是描述泥石流性质的重要基础参数。本文基于泥石流运动过程的时空特征,厘定了最大容重、峰值容重和平均容重3个容重特征值。以蒋家沟1987年以来的泥石流观测数据为分析对象,分析了3个容重特征值在数值上的分布规律和影响因素。结果显示:①最大容重与峰值容重的关系式具有较好的相关性,最大容重与平均容重的关系式具有实际计算适宜性;②最大容重和峰值流量均与泥石流峰值流量呈正相关,与泥石流冲出规模关系不明显。在现有泥石流容重计算方法基础上,进一步界定了泥石流容重取样、计算和校验方法,构建了泥石流灾害特征值计算中容重独立取值原则,即峰值流量、流速、冲压力等计算建议选取最大容重,而一次冲出固体物质总量、堵河危险性和危险区范围等计算建议选取平均容重。研究结果可为泥石流灾害防治提供参考。 相似文献
17.
容重是描述泥石流性质的重要基础参数.本文基于泥石流运动过程的时空特征,厘定了最大容重、峰值容重和平均容重3个容重特征值.以蒋家沟1987年以来的泥石流观测数据为分析对象,分析了3个容重特征值在数值上的分布规律和影响因素.结果显示:①最大容重与峰值容重的关系式具有较好的相关性,最大容重与平均容重的关系式具有实际计算适宜性... 相似文献
18.
On June 30, 2001, a debris flow occurred in the Acquabona Creek, a small catchment of the Eastern Dolomites, Italy. This debris
flow originated shortly after an intense rainstorm, characterised by a peak intensity of 8.6 mm per 10 min; it transported
a total volume of 30,000 m3, consisting of poorly sorted gravely sand with boulders up to 3 m in diameter. The sediment erosion yield rate reached as
high as 20 m3/m. In order to verify the accuracy of the field measurements, the total volume of debris deposits have was calculated using
three different topographic measurement techniques: 3D laser scanning, terrestrial stereo-photogrammetry survey and total
topographic station survey. Data collected so far show that no debris flow has occurred at Acquabona with a rainfall intensity
lower than 4.6 mm per 10 min. Channel cross section measurements indicate that debris flow velocity ranges from 2.0 to 7.2 m/s
along the lower flow channel and peak discharge ranges between 22 and 300 m3/s. Field estimates of the rheological properties indicate a yield strength ranging from 2,088 to 5,313 Pa and Bingham viscosity
between 70 and 337 Pa · s. It is not still possible to identify a rainfall intensity and amount threshold for debris flow
triggering, but the data so far collected emphasise that debris flows do not occur with a rainfall intensity lower than 4.6 mm
per 10 min. 相似文献
19.
A numerical model is used to simulate channelized lahars, flowing with a near-constant sediment concentration and volume. Water and debris are usually mobilized in short times and the peak discharge of lahars may reach many thousands of cubic meters per second in a few minutes. A relation for the energy dissipation term must be provided in the model, which in turn depends on debris flow rheology and shape and status of channel bed. A discussion of the form of this term is performed through the simulation of some historical (among the well-documented) lahars and lahar-runout flows with concentrations ranging in a wide spectrum up to 70 percent by volume and irregularly shaped sand and coarser particles dispersed in a fluid matrix of water and fine material. As concentration increases and turbulence decreases, the dissipative term, which, in the first case, is proportional to the square average flow velocity (Manning or Chezy formulation) is well described by a linear dependence on flow velocity, as expected in the laminar case. The numerical reproduction of the examined historical cases suggests that the model can be used for hazard assessment, if some hypotheses are made about lahar hydrograph at the source, its volume, and the shape of the dissipative term. 相似文献
20.
泥石流平均流速预测模型及敏感因子研究 总被引:1,自引:0,他引:1
为了探求泥石流平均流速敏感因子及影响因素耦合关系,本文采用BP神经网络和支持向量机模型对蒋家沟泥石流数据进行预测,对两种泥石流平均流速预测模型的学习与泛化能力进行比较,并对平均流速各影响因素的敏感程度进行分析,建立了泥石流平均流速敏感因子预测模型。结果表明:支持向量机的泛化能力优于BP网络,更适合样本数量较少的泥石流动态预测。沟道比降和不稳定层厚度是泥石流平均流速的主要影响因子,各因子之间存在复杂的耦合关系。基于不稳定层厚度和泥面比降的泥石流平均流速预测模型精度较高,能够定量描述泥石流动态与影响因子间的响应关系。研究成果可为泥石流防治提供依据。 相似文献