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1.
人工降雨条件下冲沟型泥石流起动试验研究 总被引:1,自引:0,他引:1
下垫面以位于贡嘎山东坡的熊家沟为模型,开展了不同降雨强度条件下冲沟型泥石流起动的模拟试验,初步研究了冲沟型泥石流的形成机理和演化特征.试验研究表明:(1)在强降雨条件下,水体入渗速度、不同深度土体含水量变化与降雨强度呈反比例关系,降雨强度越大,越不利于水体入渗,而有利于坡面汇流、冲沟径流和下切侵蚀; (2)在强降雨和径流条件下,土体破坏方式、破坏程度以及泥石流形成机理表现出差异性.相对较小雨强降雨条件下,土体破坏方式以滑坡为主,泥石流形成模式表现为滑坡液化与转化起动,雨强较大降雨条件下,土体破坏方式以侵蚀垮塌为主,泥石流形成模式为洪流席卷垮塌体和沟床揭底; (3)起动试验中泥石流阵性特征明显.在强降雨条件下,雨强与泥石流的规模、黏度之间没有正相关性,雨强越大,泥石流黏度越小,试验中多出现的是高含砂洪流,而相对较小雨强作用下由土体液化转化形成的泥石流黏度较大.试验现象和结果与熊家沟泥石流起动、发生过程具有较高的一致性. 相似文献
2.
The approach of tropical cyclone (TC) Juliette, in 2001, to the Baja California Peninsula triggered at least 419 landslides. Most of the landslides were shallow slips and debris slides of limited areal extent, which were converted rapidly into debris flows to be exported quickly out of the mountain areas towards the lowlands. Main factors affecting landslide occurrence were total storm rainfall and intensity, aspect, geology and vegetation association. Two processes can be distinguished as initiating slope failure. Accumulation of rainfall from exposed bedrock slopes, generating excess overland flow, was the main process linked to failures in concave topography. A combination of wind and excess overland flow in the more convex or planar upper slopes was a secondary process related to heterogeneity of vegetation associations in the oak-dry tropical forests ecotone, as uprooted trees dislodged large regolith and bedrock blocks, priming hillslopes for further runoff concentration. An estimative threshold curve for triggering landslides in this region is sketched. From the analysis of historical information, storms like Juliette approach the southern peninsula on average once every 100 years. Denudation estimates are in the higher end of the spectrum for a tectonically passive margin. These estimates should be considered when taking decisions regarding management of water resources in this area through damming of streams. The results emphasize the need for a more detailed representation of the spatial distribution of the rainfall and winds for this mountainous region affected by TCs. 相似文献
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4.
在野外放水试验条件下,利用染色法和侵蚀针法分别观测坡面流速和侵蚀产沙空间变异性。结果表明,坡面各横向断面的流速与距坡顶距离之间呈正相关,且相关性随流量增大逐渐变得显著,纵向断面流速的变异程度明显强于横向断面。总体上,上、下坡位侵蚀程度较重,而中坡位最轻;小流量时沉积作用明显,大流量时距坡顶0~2 m范围为净侵蚀区;各坡段侵蚀量与其距坡顶距离之间呈负相关;发生泥沙沉积部位随流量增大逐渐下移,细沟侵蚀量占坡面总侵蚀量的比例随流量增大不断增加。试验条件下流速为0.30 m/s时,细沟侵蚀产沙大于细沟间侵蚀,且坡面侵蚀量迅速增大。随流量增大,流速和侵蚀产沙量呈增大趋势;但在流量较大时,坡面各坡位侵蚀量与流速呈负相关,这可能与坡面中下部位粗颗粒泥沙沉积以及含沙水流的挟沙能力基本达到饱和有关。 相似文献
5.
在防止土壤侵蚀和雨后抑制蒸发的条件下,利用室内模拟降雨试验,研究了上方来水对坡面降雨入渗、湿润锋运移以及土壤水分再分布的影响。结果表明:对于初始含水量很低的土壤,与上方无来水相比,上方来水时降雨入渗过程中入渗率有一个上升的阶段,但平均入渗率反而降低;在降雨入渗初期,由于上方来水的沿程入渗,上方来水对坡面湿润锋运移的影响较大,但随后几乎没有影响,湿润锋的运移主要与基质势梯度有关;土壤水分沿坡面呈"波浪形"分布是坡面径流的波动性、上方来水(径流)的沿程入渗以及侧向沿坡向下流等综合作用的结果。 相似文献
6.
2020年3月30日,西昌市经久乡发生森林大火,响水沟流域植被被林火大面积烧毁,同年雨季,响水沟流域内多条沟道暴发泥石流,其中1#、2#、3#沟毗邻居民房屋和耕地,影响较为严重。通过野外调查、遥感解译和室外试验,以响水沟1#、2#、3#沟为研究对象,分析了不同林火烈度下,渗透特征、坡面侵蚀和沟道侵蚀的差异,从而揭示响水沟火后泥石流的成灾机理。结果表明,林火是泥石流暴发的重要诱因,火后泥石流的降雨阈值会明显降低。林火干扰导致坡面土壤的渗透系数表现出不同程度的降低,林火烈度越严重的区域,渗透系数越小,降雨更大比例地转化为坡面径流参与到坡面侵蚀。随降雨次数的增多,轻度、中度、重度火烧区域的坡面土壤侵蚀深度均增加;中度、重度林火烈度的侵蚀深度差异不大,且明显高于轻度区域,说明当林火烈度达到中度时,坡面土壤便会受到较大程度的侵蚀。地形条件相似的沟道,林火烈度越严重,泥石流侵蚀能力越强,最终体现于沟道两岸崩滑体数量越多,沟道宽度和深度越大。 相似文献
7.
坡面土体的崩塌活动是泥石流形成的初始过程。为了研究降雨条件下该过程中蕴含的随机性,选择典型泥石流源地坡面进行人工降雨实验,观测坡面径流和坡面土体活动特征。结果表明:坡面径流的产生与坡面土体的供给是2个相对独立的过程;坡面产流过程在时间上具有连续性,空间上具有均匀性,规模上具有稳定性;即使是在恒定的降雨强度条件下,泥石流的源地土体活动也表现为一个离散的土体崩塌序列,具有时间上的间歇性、空间上的聚集性、规模上的随机性,且在时间上服从泊松分布,在规模上服从规模-频率的幂率关系;坡面的水土过程是不完全同步的,泥石流的形成依赖于坡面土体补给的时间、空间和规模分布,这也决定了泥石流阵流的多变和流量的涨落。建立基于土体活动特征的随机性补给模型,结合分布式水文模型,是建立科学的泥石流预报模型的有效方法。 相似文献
8.
火后泥石流是火烧迹地最为严重的次生地质灾害,相对于传统泥石流和震后泥石流,其物源启动模式及致灾机理呈现出特殊性。通过对四川省乡城县仁额拥沟火烧迹地沟道不同时间尺度下的累积侵蚀量统计分析,将火烧迹地物源启动分为3个阶段:坡面侵蚀阶段、高含沙水流沟道侵蚀阶段和泥石流沟道刨蚀阶段,其中面蚀到沟蚀转变所需的汇流面积与斜坡倾斜度和火烈度呈负相关,高含沙水流转变为泥石流后常常造成沟道侵蚀率的激增;火烧后2 a的坡面侵蚀量相当于火烧前10~30 a的侵蚀总量,且主要发生在中度及严重火烧区;火烧区的滑坡发育率远高于未火烧区,但未发现火烈度对滑坡体积有明显影响,其主要受临空面高度影响,并呈幂函数正相关,滑坡物源启动模式为坡脚切坡触发的逐级牵引后退式补给。 相似文献
9.
Guruh Samodra Danang Sri Hadmoko Ghalih Nur Wicaksono Indriya Parahita Adi Maulana Yudinugroho Sandy Budi Wibowo Hatma Suryatmojo Taufik Hery Purwanto Barandi Sapta Widartono Franck Lavigne 《Landslides》2018,15(5):985-993
The Clapar landslide induced debris flow consisted of the Clapar landslide occurred on 24 March 2017 and the Clapar debris flow occurred on 29 March 2017. The first investigation of the Clapar landslide induced debris flow was carried out two months after the disaster. It was followed by UAV mapping, extensive interviews, newspaper compilation, visual observation and field measurements, and video analysis in order to understand chronology and triggering mechanism of the landslide induced debris flow in Clapar. The 24 March 2016 landslide occurred after 5 hours of consecutive rainfall (11,2 mm) and was affected by combination of fishponds leak and infiltration of antecedent rain. After five days of the Clapar landslide, landslide partially mobilized to form debris flow where the head scarp of debris flow was located at the foot of the 24 March 2016 landslide. The Clapar debris flow occurred when there was no rainfall. It was not generated by rainstorm or the surface erosion of the river bed, but rather by water infiltration through the crack formed on the toe of the 24 March 2016 landslide. Supply of water to the marine clay deposit might have increased pore water pressure and mobilized the soil layer above. The amount of water accumulated in the temporary pond at the main body of the 24 March 2016 landslide might have also triggered the Clapar debris flow. The area of Clapar landslide still shows the possibility of further retrogression of the landslide body which may induce another debris flow. Understanding precursory factors triggering landslides and debris flows in Banjarnegara based on data from monitoring systems and laboratory experiments is essential to minimize the risk of future landslide. 相似文献
10.
浅谈湖南711矿山体滑坡群的成因及治理措施 总被引:1,自引:0,他引:1
711矿位于湖南省郴州市东北11km的许家洞镇。滑坡主要发生在711矿主矿带斗岭组地层,由3个滑坡体组成滑坡群。斗岭组地层上覆第四纪残坡积层,斗岭组地层为隔水层。通过对发生在711矿山体上的滑坡群的勘探及降雨和堆石的调查情况,结合对边坡角的演化、渗入坡体水的软化作用等因素的分析,阐明了该滑坡群发生的主要原因是废石堆置超荷、降雨通过第四纪土层的垂直入渗后在斗岭组和残坡积层之间形成软弱带。同时采矿中经常性的爆破震动也是诱发滑坡的原因之一。最后对滑坡群提出了刷方减重、埋设抗滑桩等治理方案。 相似文献
11.
参照黄土区侵蚀降雨和坡面片蚀产沙特征,采用恒流泥沙输送装置模拟坡面上方来水来沙,探讨不同坡度草地含沙水流的水力学特性及其对上方来沙的拦蓄机理。结果表明,草地坡面的水流弗劳德数随坡度增大而增加,而阻力系数与坡度呈反势。按明渠水流的一般标准,不同坡度草地水流均为层状缓流。草地坡面拦沙效应随坡度增大而减小,且径流前期的减沙作用较后期更为显著。不同坡度草地坡面的出流泥沙平均直径和大颗粒(>10μm)泥沙含量均显著小于上方来沙,这说明草地的拦沙效应主要体现在对大粒径泥沙的拦蓄上。 相似文献
12.
采用室内人工模拟降雨方法,研究了陕北风沙区含砾石工程堆积体边坡的产流产沙过程。结果表明:①砾石存在改变了坡面入渗速率,径流系数受入渗速率的影响,随砾石含量的增加先线性递减后线性递增,并在10%砾石含量处存在阈值;径流系数随降雨强度的增加线性递增。②含砾石堆积体坡面流速较纯土堆积体降低,且随雨强增大,砾石延缓径流流动的作用越显著;雨强对径流流速的影响随砾石含量增加持续减弱。③土壤剥蚀率在产流24~33 min后显著增加,砾石主要对显著增加后的平均剥蚀率产生影响。④雨强1.0 mm/min时,砾石存在促进降雨侵蚀,产沙量增大;雨强大于1.0 mm/min时,砾石具有显著的减沙效应。 相似文献
13.
以四川省冕宁县腊窝乡华岩子沟2019年7月发生的火后泥石流为典型案例,通过对火烧迹地现场地质勘察、降雨模拟试验研究了与火后泥石流形成相关的地形地貌、火行为分布、松散物源规模、产流产沙特征以及相应的灰烬层、斥水性、渗透性等相关试验。结果表明:(1)火烧迹地的斥水性强度越强,径流产流量越大;(2)严重火烧区的产沙量明显高于中度和轻度火烧区;(3)火烧迹地的斥水性与火烈度大致呈正相关,而渗透性恰好与之相反。研究揭示了火后泥石流的演变过程,为火后泥石流的防治和预警提供了理论依据。 相似文献
14.
The occurrence of debris flow from channel-bed failure is occasionally noted in small and steeply sloping watersheds where channelized water flow dominates debris flow initiation. On August 12, 2016, a debris flow from channel-bed failures occurred in the Caozhuangzi Watershed of the Longtan Basin, Miyun, Beijing. Rainfall records over 10-min intervals and field investigations including channel morphology measurements were used to study the triggering conditions and erosion process. The results indicated that the occurrence of this event lagged the peak 10-min rainfall interval and that the cumulative rainfall prior to the occurrence time played an important role in its formation. A mean 10-min rainfall intensity–duration expression in the form of I10?=?5.0?×?D?0.21, where I10 denotes the mean 10-min rainfall intensity and D is the rainfall duration ranging from 10 to 60 h, was proposed. The debris flows have low proportions of grain size fractions <?0.1 mm and higher fractions of grains 0.1–2 mm in size, indicating that the flow had low viscosity and was coarse-grain dominated. Channel morphology analysis revealed that abrupt changes in topography in the study area, including a steep section, a concave stream bank area, and a partial concave stream section were eroded more extensively than other sites. The maximum sediment erosion volume and erosion depth were not proportional to the variation in stream gradient. Consideration of the degree of erosion in the channel at sites with abrupt morphology changes, the maximum sediment erosion volume, and the erosion depth and volume at the initial channel site and downstream region of forest area together showed that the prime factor controlling erosion was entrained sediment volume. This work, thus, provides a case study regarding the triggering conditions of runoff-triggered debris flows and the topographical changes by debris flow erosion. 相似文献
15.
从导致土壤侵蚀的降雨和径流能量出发,提出了基于物理学原理的降雨能和径流能的概念,并采用人工模拟降雨实验,分析了泥沙输移与降雨和径流能的关系,结果显示:坡面薄层径流泥沙剥蚀量随着地表坡度、降雨能和径流能的增加而增加,雨滴击溅作用下泥沙剥蚀量远远大于无雨滴击溅作用时泥沙剥蚀量;薄层水流泥沙浓度随着坡度和降雨能的增加而增加,当坡度和降雨能一定时,泥沙浓度随着径流能的增加而减小;降雨扰动系数与降雨和径流能的比值按照对数关系增长,在相同坡度下,当降雨能一定时,降雨扰动系数随着径流能的增加而减小,当径流能一定时,降雨扰动系数随着降雨能的增加而增加。降雨能是导致泥沙剥离的本质,径流能是泥沙搬运的动力。 相似文献
16.
Studies on rain-runoff process in the peripheral mountainous area of the Sichuan Basin, which is regarded as a key ecological shelter, will contribute to flood control and environmental protection for the Upper Yangtze River Basin. In two typical catchments--the Fujiang River Catchment and the Wujiang River Catchment, rainfall simulations have been conducted to study the rain-runoff processes of yellow soil and limestone soil in three types of land use--forestland, farmland and grassland. Results showed that (1) within the same rainfall process, overland flow occurs first on farmland, then on grassland, and finally on forestland; (2) soil surface coverage has a great impact on the occurrence and amount of overland flow. The runoff amount can increase 2-4 times after the coverage is removed; (3) the infiltration before the occurrence of overland flow will decrease because of higher gravel contents of soil, but it takes no effect on infiltration once overland flow becomes stable; (4) the runoff coefficient of the limestone soil forestland is greater than that of the yellow soil forest land, but less than that of the farmland; (5) three empirical infiltration models, including Horton' model, Kostiakov' model, and modified Kostiakov' model, were compared by using the observed results under rainfall simulation. The results showed that the Kostiakov' model performed better than both the Horton' model and modified Kostiakov model. According to the results of this research, the Kostiakov's model can be used to simulate rainfall infiltration when water erosion is modeled in the peripheral mountainous area of the Sichuan Basin. 相似文献
17.
Fire-related hyperconcentrated and debris flows on Storm King Mountain, Glenwood Springs, Colorado, USA 总被引:2,自引:0,他引:2
The South Canyon Fire of July 1994 burned 800 ha of vegetation on Storm King Mountain near Glenwood Springs, Colorado, USA.
On the night of 1 September 1994, in response to torrential rains, debris flows inundated seven areas along a 5-km length
of Interstate Highway 70. Mapping from aerial photographs, along with field observations and measurements, shows that the
September rainstorm eroded unconsolidated, burned surficial soil from the hillsides, flushed dry-ravel deposits from the tributary
channels, and transported loose, large material from the main channels. The hyperconcentrated flows and debris flows inundated
14 ha of Interstate Highway 70 with 70 000 m3 of material. Although the burned area was seeded in November 1994, the potential for continuing debris-flow activity remains.
Incision and entrainment of channel alluvium, as well as erosion of loose material from the hillslopes could result in future
debris- and hyperconcentrated-flow activity.
Received: 15 October 1996 / Accepted: 25 June 1997 相似文献
18.
Studies on rain.runoff process in the peripheral mountainous area of the Sichuan Basin,which is re-garded as a key ecological shelter,will contribute to flood control and environmental protection for the Upper Yang-tze River Basin.In two typical catchments--the Fujiang River Catchment and the Wujiang River Catchment,rainfall simulations have been conducted to study the rain-runoff processes of yellow soil and limestone soil in three types of land use-forestland.farmland and grassland.Results showed that(1)within the same rainfall process,overland flow occurs first on farmland,then on grassland,and finally on forestland;(2)soil surface coverage has a great im-pact on the occurrence and amount of overland flow.The runoff amount Can increase 2-4 times after the coverage iS removed;(3)the infiltration before the occurrence of overland flow will decrease because of higher gravel contents of soil.but it takes no effect on infiltration once,overland flow becomes stable;(4)the runoff coefficient of the lime-stone soil forestland iS greater than that of the yellow soil forest land,but less than that of the farmland;(5)threeempirical infiltration models,including Horton'model,Kostiakov'model,and modified Kostiakov'model,were compared by using the observed results under rainfall simulation.The results showed that the Kostiakov'model per-formed better than both the Horton'model and modified Kostiakov model.According to the results of this research,the Kostiakov's model Can be used to simulate rainfall infiltration when water erosion is modeled in the peripheral mountainous area of the Sichuan Basin. 相似文献
19.
Several giant debris flows occurred in southwestern China after the Wenchuan earthquake, causing serious casualties and economic losses. Debris flows were frequently triggered after the earthquake. A relatively accurate prediction of these post-seismic debris flows can help to reduce the consequent damages. Existing debris flow prediction is almost based on the study of the relationship between post-earthquake debris flows and rainfall. The relationship between the occurrence of post-seismic debris flows and characteristic rainfall patterns was studied in this paper. Fourteen rainfall events related to debris flows that occurred in four watersheds in the Wenchuan earthquake area were collected. By analyzing the rainfall data, characteristics of rainfall events that triggered debris flows after the earthquake were obtained. Both the critical maximum rainfall intensity and average rainfall intensity increased with the time. To describe the critical conditions for debris flow initiation, intensity–duration curves were constructed, which shows how the threshold for triggering debris flows increased each year. The time that the critical rainfall intensities of debris flow occurrences return to the value prior to the earthquake could not be estimated due to the absent rainfall data before the earthquake. Rainfall-triggering response patterns could be distinguished for rainfall-induced debris flows. The critical rainfall patterns related to debris flows could be divided on the basis of antecedent rainfall duration and intensity into three categories: (1) a rapid triggering response pattern, (2) an intermediate triggering response pattern, and (3) a slow triggering response pattern. The triggering response patterns are closely related to the initiation mechanisms of post-earthquake debris flows. The main difference in initiation mechanisms and difference in triggering patterns by rainfall is regulated by the infiltration process and determined by a number of parameters, such as hydro-mechanical soil characteristics, the thickness of the soil, and the slope gradient. In case of a rapid triggering response rainfall pattern, the hydraulic conductivity and initial moisture content are the main impact factors. Runoff erosion and rapid loading of solid material is the dominant process. In case of a rainfall pattern with a slow triggering response, the thickness and strength of the soil, high hydraulic conductivity, and rainfall intensity are the impact factors. Probably slope failure is the most dominant process initiating debris flows. In case of an intermediate triggering response pattern, both debris flow initiation mechanisms (runoff erosion and slope failure) can play a role. 相似文献
20.
为探明降雨条件下沙黄土坡面水流水动力学特性,以流体力学和泥沙运动力学理论为依据,通过5个坡度和5个雨强组合条件下室内模拟降雨试验,系统研究了坡面水流水力参数的变化规律。结果表明,降雨条件下坡面薄层水流雷诺数均小于580,处于层流失稳区;水流流型随雨强和坡度的变化而发生转捩,当坡度较缓、雨强较小时,床面形态处于低能态区和过渡区,床面出现沙纹现象,水流宏观上呈缓流,反之,坡度较陡、雨强较大时,床面由沙纹和沙垄向动平床过渡,宏观上多呈急流;并根据薄层水流阻力组成特点,推导出沙黄土坡面薄层水流阻力计算公式。验证结果表明,该式误差较小,可为坡面侵蚀预报模型的构建提供参考。 相似文献