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汶川地震后四川省绵竹市清平乡文家沟泥石流灾害调查研究 总被引:8,自引:0,他引:8
在2008年5月12日汶川地震后的地震灾区暴发了许多泥石流灾害,其中以四川省绵竹市清平乡文家沟泥石流最为显著。文家沟原来不是泥石流沟,在汶川地震时由于滑坡形成的巨大的滑坡-碎屑流堆积体改变了文家沟的泥石流形成条件,在此后的3个雨季内,文家沟先后暴发了5次大规模和特大规模的泥石流灾害,其中以8.13文家沟泥石流规模和危害最大。8.13文家沟泥石流暴发时的总降雨量为227mm,泥石流持续时间约2.5h,泥石流总量约310×104m3;泥石流造成7人死亡,5人失踪,39人受伤,479户农房被掩埋,直接经济损失4.3亿元。5次大规模和特大规模的泥石流以及洪水仅带走了16%的可以很容易形成泥石流的滑坡-碎屑流堆积物,文家沟如再遭遇较大降雨还会暴发泥石流。即使在今后的雨季中暴发几次规模如8.13泥石流一样大的特大规模泥石流,文家沟在较大降雨下仍然可能暴发泥石流灾害,因此对文家沟泥石流的防治工作将是一个长期的工作。 相似文献
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2010年8月13日凌晨,5·12汶川地震极重灾区绵竹市清平乡发生群发泥石流灾害,27条沟谷发生泥石流,占泥石流沟总数的69.4%,其中以文家沟泥石流最为严重。在调查基础上,分析了8·13特大群发泥石流的成因、特征和发展趋势,并提出了灾后规划重建中的地质安全问题。从成因上看,8·13特大群发泥石流是5·12汶川地震和强降雨共同作用的结果;从特征上来看,泥石流呈现出暴发空间的群发性、启动过程的复杂性、发生过程的持续性,成灾过程的链式性、危害形式的多样性、泥石流规模的放大性和泥石流隐患的隐蔽性等7个方面的特征;清平乡各沟8·13泥石流冲出方量约占物源总量的10%~50%,泥石流存在进一步频发、群发的态势,建议在灾后规划重建的过程中,应全面科学评估清平乡泥石流灾害的链式效应和地质环境容量问题,将地质灾害的防治同规划重建密切结合。 相似文献
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赵家沟位于北川县擂鼓镇坪上村西北侧,属汶川地震极重灾区,在地震发生前为一般性清水沟或洪水沟。由于地震的影响,流域内发育了多处滑坡和崩塌,斜坡上和沟道中堆积了大量松散固体物质。在2008年9月24日暴雨的作用下,赵家沟流域发生了百年不遇的泥石流灾害,成为地震次生泥石流沟。通过现场实地调查和室内分析,对地震次生泥石流灾害形成的地质地貌条件、物源条件和水源条件进行了分析。表明地震次生泥石流灾害的发生频率和规模有可能加大,其危险性由于松散固体物质的增大而上升,这是地震次生泥石流灾害显著的特征。 相似文献
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哈尔木沟位于杂谷脑河中游,属于“5?12”汶川震区重灾区,历史上多次暴发泥石流灾害,曾于1989年8月暴发泥石流堵断杂谷脑河。受“5?12”地震影响,泥石流灾害相对震前具有规模增大、频率增高、活跃期增长等特点。分析哈尔木沟自然环境背景,发现哈尔木沟的地形地貌和降水条件均有利于泥石流的暴发,受新构造运动与地震影响,沟域内发育大量崩滑体为泥石流的形成提供丰富的松散固体物质。目前沟内由于松散固体物质充足,诱发泥石流灾害的降雨临界值较低,近5年每年均暴发泥石流。针对哈尔木沟的具体情况,提出了拦排结合的治理思路,修建拦挡坝调节泥石流峰值流量,排导槽将泥石流顺利排泄至主河。历经近5个水文年,表明防治工程治理效果良好。 相似文献
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泥石流形成区沟床宽度和颗粒粒径对沟床起动型泥石流的发生影响很大,在强烈地震影响区内显得尤为突出,但目前的泥石流预报中还没考虑到这两个因素,无法准确预测强震区泥石流的发生.在泥石流10 min和1 h精细化预报模型基础上,通过现场调查群发泥石流事件,结合汶川地震强烈影响区泥石流的演化特点,引入了泥石流形成区沟道宽度和颗粒粒径的影响,建立了改进的精细化泥石流10 min和1 h预报模型,并在贵州望谟打易和四川德昌群发泥石流、汶川地震强烈影响区的文家沟多次泥石流事件中获得了很好的验证结果,得出泥石流形成区的颗粒粒径代表泥石流的地质因子,泥石流形成区沟床宽度代表泥石流的地形因子之一,这2个因子在泥石流发生中的作用都非常重要;改进的精细化10 min和1 h预报模型以及临界值,可以用于强烈地震区和一般的泥石流预报. 相似文献
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震后泥石流松散物质显著增多,临界雨量降低,导致泥石流暴发频率增加、规模增大,从而使震后灾区泥石流堵江事件频繁发生,给灾区带来严重的二次灾害。为了评价震后泥石流堵江概率大小,本文在野外考察基础上,获得研究区泥石流沟基础数据,并根据水文模型计算不同频率下的泥石流规模; 在此基础上利用泥石流堵江公式,获取研究区域泥石流堵江危险程度(数值),并结合研究区域已发生的泥石流堵江事件,界定了泥石流堵江公式的临界值,使之能够更加准确用来判定泥石流堵江概率,并对 5·12 地震极震区都汶公路沿线的7条泥石流在不同频率下的泥石流堵江概率进行评价。评价结果显示:牛眠沟和关山沟在暴发50a及其以上泥石流时,会发生堵江; 烧房沟、红椿沟和磨子沟在暴发10a及其以上泥石流时,会发生堵江事件; 洱沟和太平沟在暴发5a及其以上泥石流时便可能发生堵江; 上述泥石流沟一旦发生堵江,便会给映秀镇和都汶公路带来严重灾难。通过本文获取的堵江临界值可以作为判定泥石流堵江的参考标准,为泥石流防治、预报提供参考,同时可以为灾后重建和预防二次灾害提供科学借鉴。 相似文献
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汶川地震区文家沟泥石流成因模式分析 总被引:3,自引:0,他引:3
文家沟2008~2010年期间8次泥石流事件是在地震滑坡堆积体上因持续强降雨渗透变形溃决和后续侵蚀产生的,不同于一般的沟谷型和坡面型泥石流。文家沟滑坡堆积体上新生的泥石流沟共冲出松散固体物质总体积约180×104m3,2010年的"8.13"泥石流事件是其中规模最大的一次,冲出的松散固体物质体积约在115×104m3。文家沟泥石流的成因模式是,强降雨过程在滑坡堆积体上先期出现"渗流管涌、暂态壅水、溃决滑塌"的造沟作用模式,后期出现"溯源侵蚀、冲刷刨蚀、侧蚀坍塌、混合奔流(搅拌机)"的扩沟作用模式。2008年的"6.21"和2010年的"7.31"泥石流事件主要起因于前者,其他事件主要起因于后者。松散堆积体因排泄持续降雨入渗的能力不足而造成地下水滞留和水位升高是导致斜坡体稳定性降低的内在原因。当地下水壅高水位面达到水平时,堆积体内渗透动水压力达到最大,堆积斜坡的稳定性最低,成为堆积体表层发生滑塌溃决的临界条件。 相似文献
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Formation and characteristics of post-earthquake debris flow: a case study from Wenjia gully in Mianzhu, Sichuan, SW China 总被引:3,自引:0,他引:3
H. Y. Ni W. M. Zheng Y. B. Tie P. C. Su Y. Q. Tang R. G. Xu D. W. Wang X. Y. Chen 《Natural Hazards》2012,61(2):317-335
During the three flood seasons following the Wenchuan earthquake in 2008, two catastrophic groups of debris flow events occurred
in the earthquake-affected area: the 2008-9-24 debris flow events, which had a serious impact on rebuilding; and the 2010-8-13/14
debris flow events, which destroyed much of the progress made in rebuilding. The Wenjia gully is a typical post-earthquake
debris flow gully and at least five debris flows have occurred there. As far as the 2010-8-13 debris flow is concerned, the
deposits of the Wenjia gully debris flow reached a volume of 3.1 × 106 m3 in volume and hundreds of newly built houses were buried. This study took the Wenjia gully debris flow as an example and
discussed the formation and characteristics of post-earthquake debris flow on the basis of field investigations and a remote
sensing interpretation. The conclusions drawn from the investigation and analysis were as follows: (1) Post-earthquake debris
flows were a joint result of both the earthquake and heavy rainfall. (2) Gully incision and loose material provision are key
processes in the initiation and occurrence of debris flows and a cycle can be presented as the following process: runoff—erosion—collapse—engulfment—debris
flow—further erosion—further collapse—further engulfment—debris flow enlargement. (3) The amount of rainfall that triggered
debris flows from the Wenjia gully was significantly less than the average daily rainfall, while the intraday rainfall threshold
decreased by at least 23.3%. (4) The occurrence mechanism of Wenjia gully debris flow was an erosion type and there was a
positive relationship between debris flow magnitude and rainfall, which fitted an exponential model. (5) There were five representative
characteristics of Wenjia gully debris flow: the long duration of the occurring process; the long distance of deposition chain
conversion during the process of damage; magnification in the scale of debris flow; and the high frequency of debris flow
events. 相似文献
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2008年“5·12”汶川地震极大地改变了震区泥石流的特征,不仅增强了泥石流的活动性,同时也使得震区在相当长的时间内都要面临泥石流的威胁。本文基于前人大量的研究成果,并利用遥感解译结合现场调查等手段,分析了汶川县泥石流沟道纵坡降、沟壑密度、两岸坡度等基本发育特征;进而分析了地震前后汶川县降雨分布及泥石流相关降雨参数变化特征。结果显示,流域内泥石流沟的沟壑密度在0.2~4之间,属于微度土壤侵蚀区域,泥石流的沟床纵坡降偏大,有利于泥石流的发生;泥石流流域内斜坡坡度多为30°~40°,有利于灾害的发生;震后汶川县年均降雨量增加了5.17%,降雨多集中在7~9月份,降雨量由南及北逐渐降低;震后泥石流的降雨阈值在2008~2013年呈现缓慢回升的趋势,但2019年又有所下降,预计恢复到震前水平尚需要一定时间;同时震后汶川县泥石流物源丰富,震后物源量呈现“震荡式衰减”的演化趋势,但体量仍然很大,对泥石流仍需坚持监测预警工作。 相似文献
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在汶川震区沟道型泥石流中,普遍存在一种窄陡沟道类型,窄陡沟道型泥石流具有沟道纵坡陡、平均宽度窄、流域面积小的地形特点,在震区容易瞬间汇流形成大规模突发性泥石流灾害。结合四川省都汶高速沿线2013年“7·10”特大群发性泥石流,重点以窄陡沟道型的磨子沟泥石流为实例,针对该泥石流对都汶高速、岷江等造成的冲击淤埋及堵塞问题,通过现场调查泥石流形成条件和发育特征,采用大型流体动力学计算软件CFX模拟再现50年一遇暴雨频率下此类窄陡型泥石流的动力学过程,分析其危险范围、评价其冲击都汶高速桥梁,堵塞岷江,淹没岷江两岸居民安置点的破坏性影响,为提出针对性的泥石流防治工程措施提供依据。 相似文献
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The debris flow, which was triggered in the Wenjia Gully on August 13, 2010, is an extreme example of mass movement events, which occurred after the Wenchuan earthquake of May 12, 2008. This Earthquake triggered in the Wenjia Gully the second largest co-seismic landslide, which can be classified as a rockslide-debris avalanche. A lot of loose sediments was deposited in the basin. In the main so called Deposition Area II of this landslide, with a volume of 30?×?106?m3, flash floods can easily trigger debris flows because of the steep bottom slope and the relative small grain sizes of the sediments. The largest debris flow of August 13, 2010 destroyed the most downstream dam in the catchment during a heavy rain storm. The debris flow with a peak discharge of 1,530?m3/s and a total volume of 3.1?×?106?m3 caused the death of 7 persons, 5 persons were missing, 39 persons were injured and 479 houses buried. After three rainy seasons, only 16?% of the landslide-debris deposition was taken away by 5 large-scale debris flow events. Since the threshold for rainfall triggered debris flows in the Wenjia Gully and other catchments drastically decreased after the Wenchuan Earthquake, new catastrophic events are expected in the future during the rainy season. 相似文献
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汶川地震后,流域内产生大量松散物源,使走马岭沟由一季节性冲沟演变为一条潜在泥石流沟,在地震后的3个汛期内发生多次泥石流,并造成灾害,其中以2008-9-24泥石流和2010-8-13泥石流最为严重。本文利用3期遥感影像并结合野外调查,对走马岭沟泥石流的形成条件进行了论述,对比分析了走马岭泥石流沟2008年、2009年、2010年3个汛期后流域的动态变化特征,主要表现为:(1)在不同降雨强度下,走马岭泥石流具有复合型物源区启动方式,并先从局部性支沟发生泥石流,进而演变为整个流域全面暴发泥石流。(2)经历了2008年、2009年、2010年3个雨季后,走马岭流域物源储量及物源供给形式发生变化,其中崩塌规模增加了1.87%; 滑坡增加了25.35%; 沟道及坡面松散堆积减少了67.47%,减少部分大部分转化为泥石流沟道堆积物。(3)不同降雨强度下,走马岭泥石流堆积区范围边界变化明显,且不同堆积扇间存在叠加关系; 结合走马岭"9·24"堆积扇范围和"8·13"堆积扇前缘堆积痕迹及影像特征,推测出走马岭"8·13"堆积扇堆积面积约8.76×104m2。最后对泥石流成因机理及发展趋势进行了初步分析。结果显示,走马岭为一高频泥石流沟,仍具备形成大规模泥石流的条件。 相似文献
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The post-earthquake debris flows in the Wenjia Gully led to the exposure of the shortcomings in the design of the original conventional debris flow mitigation system. A predicament for the Wenjia mitigation system is a large amount of loose material (est. 50 × 106 m3) that has been deposited in the gully by the co-seismic landslide, providing abundant source material for debris flows under saturation. A novel design solution for the replacement mitigation system was proposed and constructed, and has exhibited excellent performance and resilience in subsequent debris flows. The design was governed by the three-phase philosophy of controlling water, sediment, and erosion. An Early Warning System (EWS) for debris flow that uses real-time field data was developed; it issues alerts based on the probabilistic and empirical correlations between rainfall and debris flows. This two-fold solution reduces energy of the debris flow by combining different mitigation measures while minimizing the impact through event forecasting and rapid public information sharing. Declines in the number and size of debris flows in the gully, with increased corresponding rainfall thresholds and mean rainfall intensity-duration (I-D) thresholds, indicate the high efficacy of the new mitigation system and a lowered debris flow susceptibility. This paper reports the design of the mitigation system and analyzes the characteristics of rainfall and debris flow events that occurred before and after implementation of the system; it evaluates the effectiveness of one of the most advanced debris flow mitigation systems in China. 相似文献
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On 13 August 2010, significant debris flows were triggered by intense rainfall events in Wenchuan earthquake-affected areas, destroying numerous houses, bridges, and traffic facilities. To investigate the impact force of debris flows, a fluid–structure coupled numerical model based on smoothed particle hydrodynamics is established in this work. The debris flow material is modeled as a viscous fluid, and the check dams are simulated as elastic solid (note that only the maximum impact forces are evaluated in this work). The governing equations of both phases are solved respectively, and their interaction is calculated. We validate the model with the simulation of a sand flow model test and confirm its ability to calculate the impact force. The Wenjia gully and Hongchun gully debris flows are simulated as the application of the coupled smoothed particle hydrodynamic model. The propagation of the debris flows is then predicted, and we obtain the evolution of the impact forces on the check dams. 相似文献
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The Wenchuan earthquake induced large amounts of debris flows and catastrophic incidents triggered by subsequent rainstorms occurred frequently in the past 6 rainy seasons, and thus resulted in serious casualties, huge economic loss and long-term impact. In this paper, post-seismic debris flows distributed in 10 Wenchuan earthquake extremely stricken counties were verified and debris flow database consisting of 609 debris flows was established based on detailed investigation organized by Land and Resources Department of Sichuan Province. Combined with database and related studies, the impact of Wenchuan earthquake on debris flows was analyzed. And then variation of formation conditions including rainfall threshold and landform condition was analyzed by contrasting pre-seismic and post-seismic debris flows. Followed are some typical viewpoints on initiation mechanism of post-seismic debris flows. In the end of this paper, characteristics of postseismic debris flows triggered by subsequent rainstorms were comprehensively summarized, such as regional group occurrence, high frequency, high viscosity, chain effect, huge dynamics, large scale and long duration. We hope this paper will be helpful in understanding the formation mechanism, disaster characteristics and prevention countermeasures of post-seismic debris flows in Wenchuan earthquake extremely stricken areas. 相似文献