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《岩土力学》2017,(4):1226-1232
采用光滑粒子流体动力学(SPH)方法和离散单元法(DEM),并基于达西渗透试验原理,提出一种SPH-DEM耦合算法用于处理宏观尺度下离散体与流体之间的相互作用问题,并基于该流-固耦合方法采用FORTRAN语言建立滑坡涌浪数学模型。模拟了块体滑坡问题,并与试验数据进行对比以验证该耦合方法的有效性。模拟分析了离散体滑坡产生涌浪以及涌浪传播的过程,分析比较了数值模拟得到的最大涌浪高度与经验公式结果间的关系。研究表明:采用该耦合方法模拟水下块体滑坡问题得到的结果与试验数据吻合良好;模拟离散体滑坡涌浪问题时,较清晰地反映了滑坡体对水的排挤到涌浪的产生过程、水在滑坡体中的渗透过程和滑坡体与水耦合作用发生变形的过程;不同公式分析方法得到的最大涌浪高度之间均有一定差别,算例中滑坡体受重力作用沿倾斜坡面滑动入水过程更接近于潘家铮法的垂直运动模式,因此,模拟结果与之最为接近。 相似文献
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龚家方4号斜坡涌浪数值模拟分析 总被引:2,自引:0,他引:2
对于库区滑坡来说,不能只考虑滑坡体本身造成的灾害,还要考虑滑坡体引起的涌浪灾害,为了研究滑坡涌浪的传播、衰减规律,在Geo-wave软件的技术上,二次开发形成FAST软件。以三峡库区龚家方4号斜坡为研究对象,分别在175、156、145 m的库水位条件下,在长约23 km、宽约10.4 km的区域内进行涌浪数值模拟,获得涌浪传播模拟数据。经过模拟软件数据处理模块的计算分析,形成了分析涌浪传播规律的一系列图件。对不同水位下涌浪模拟的计算结果进行对比分析发现,随着库水位的下降,滑坡产生的最大涌浪值和在对岸的爬高值都有增长的趋势,但其对航道存在威胁的时间逐渐变短。模拟区各位置的最大波高空间分布形态具有中间内凹、两翼沿岸坡延伸的特征。涌浪传播的急剧衰减区基本分布在涌浪源附近1 km的范围内,涌浪源处的波高越大,单位距离内的涌浪下降高度也越大。由于涌浪在岸边有叠加、壅高现象,建议航道内船只经过地质灾害点附近时应沿江中心快速通行。 相似文献
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清江水布垭库区大堰塘滑坡涌浪分析 总被引:4,自引:0,他引:4
2007年6月15日位于水布垭水库巴东县清太平镇的大堰塘滑坡发生滑动,激起高达50 m的巨大涌浪,造成了沿岸的人员伤亡。为了解决大堰塘滑坡引起的涌浪问题,把滑坡引起的涌浪分为体积涌浪和冲击涌浪两部分。根据体积守恒原理及块体水下运动的位移公式求出了初始涌浪的计算公式。把滑坡涌浪衰减过程分为急剧衰减和缓慢衰减两个阶段来考虑,并认为急剧衰减阶段的涌浪的衰减符合指数衰减规律,缓慢衰减阶段符合明槽水流的沿程水头损失规律,对其涌浪的传播和爬坡进行了深入探讨,并与实际调查结果进行了对比分析,该成果对水库库岸滑坡的涌浪传播的研究具有一定的参考意义。 相似文献
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水库库岸滑坡涌浪的传播与爬高研究 总被引:5,自引:0,他引:5
基于流体力学明渠非恒定流的连续性方程、运动方程和沿程水头损失理论,把滑坡涌浪衰减过程分为急剧衰减和缓慢衰减两个阶段来考虑,并认为急剧衰减阶段的涌浪的衰减符合指数衰减规律,缓慢衰减阶段符合明槽水流的沿程水头损失规律,结合初始涌浪高度对涌浪沿岸的传播高度及爬坡高度进行了计算。以新滩滑坡为例对涌浪的传播及爬坡高度进行了计算,得出了滑坡涌浪衰减先快后慢以及传播3 km时的涌浪高度只有初始涌浪高度的30 %以及传播10 km时涌浪高度只有初始涌浪高度的13 %的规律。 相似文献
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基于离散单元法的滑坡堆积及其涌浪计算 总被引:1,自引:0,他引:1
采用离散单元法对水库库岸边坡的动态破坏过程进行了研究,给出了计算流程并开发了相应的软件。介绍了离散单元法的基本原理,分析了常用的计算滑坡速度方法的不足及用离散单元法的优势,基于离散单元法提供的块体运动信息并结合波动方程模拟了滑坡体滑入水库时所激起的涌浪。此外,采用离散单元法研究了滑坡的堆积形状。通过算例验证了方法的可行性与程序的正确性。算例结果表明:块体在坡面上运动时,用离散单元法计算得到的块体的速度和能量法与潘家铮法一致,且更方便、更高效;由于涌浪的叠加,多个块体所激起的涌浪高度比单个块体的涌浪高一些,这表明在进行涌浪分析时,考虑多块体的涌浪叠加效应是至关重要的,滑坡的堆积形状为滑坡的灾害评估提供了依据。通过自行开发的离散单元法软件模拟了块体的滑动和涌浪的产生及其传播过程,其模拟结果为研究边坡的滑动破坏的启动、破坏过程及滑坡的风险评价提供了新的思路。 相似文献
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滑坡涌浪问题是近水滑坡灾害链上的一个重要的研究内容,长期以来一直是滑坡界、水电工程领域研究的难点和热点。特别是一些灾难性的滑坡涌浪事故的发生,使人们越来越认识到涌浪作为近水岸滑坡灾害链上的一个重要派生灾害。本文运用耦合的欧拉与拉格朗日(CEL)算法采用多种正交数值试验的方法研究了滑坡体形状、滑坡体前缘形态、滑坡体体积、滑面摩擦角及水面宽度等对滑坡涌浪的影响。通过研究发现:对于同体积的滑体而言,楔形体的滑体形成的涌浪最大,且楔形体的前缘角度越大形成的涌浪高度越高,这种影响在近场范围内影响更为显著; 滑坡体的体积对涌浪高度影响较大,随着体积的增加浪高呈现明显的增加趋势; 在相同条件下,滑面的摩擦系数越大所形成的涌浪高度越小; 由于受到阻挡作用,随着水面宽度的减小,涌浪高度呈现增高的趋势,尤其是涌浪爬坡高度有明显的增加。 相似文献
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为了解决水库库岸滑坡引起的初始涌浪高度问题,从滑坡涌浪的形成机制着手,把滑坡引起的涌浪分为体积涌浪和冲击涌浪两部分,并根据体积守恒原理、明槽中扰动波的传播速度及块体水下运动的位移公式求出了两者的计算式,体积守恒原理用于解决滑坡的入水体积与涌浪高度的关系,水流连续性原理用于解决传播的波速与波高的关系,黏滞力公式用于解决块体水下运动的位移与速度的关系。文章以新滩滑坡为例对初始涌浪高度进行了计算,得出了滑坡入水过程中初始涌浪高度先增后减以及它与滑坡速度的变化不一致的规律。 相似文献
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三峡水库自2003年开始蓄水以来, 库岸滑坡变形明显加剧, 滑坡变形不仅造成建筑物破坏, 高速滑坡滑入水库还会产生很大的涌浪, 其潜在的危害性远远超过滑坡本身.2003年7月13日发生在三峡库区的千将坪滑坡就是由水库蓄水诱发所致, 滑坡最高涌浪达到39 m, 在水库传播达30 km之远, 涌浪造成了人员伤亡与财产损失.为了更好地研究水库滑坡涌浪特征和传播规律, 以三峡库区重大科研项目为依托, 采用室内大型物理模拟实验手段, 对三峡库区滑坡涌浪开展了深入研究.通过对三峡库区已经开展勘探的潜在滑坡的地质资料进行统计分析, 按照正交试验设计方法, 制定了包含滑坡规模、入水速度、滑动面倾角、水深、岸坡坡角等综合影响因素的试验方案, 以三峡库区白水河滑坡上下游河道为原型, 建立了1∶200比例尺的河道物理模型, 采用试验控制系统、试验量测系统开展了滑坡涌浪三维物理模型试验.通过细致的物理模型实验, 得到了不同试验条件下的三峡库区滑坡涌浪物理模型实验观测数据.分析滑坡涌浪形态变化, 明确了滑坡最大首浪的含义.在此基础上, 以国内外经典的Noda和潘家铮提出的滑坡涌浪公式为基础, 基于试验量测数据, 提出了三峡库区滑坡涌浪计算公式.最后以三峡库区正在变形的白水河滑坡为例进行了滑坡涌浪预测研究, 预测了滑坡最大首浪高度和沿水库传播的涌浪衰减规律. 相似文献
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Analysis of waves generated by Gongjiafang landslide in Wu Gorge, three Gorges reservoir, on November 23, 2008 总被引:4,自引:1,他引:3
Bolin Huang Yueping Yin Guangning Liu Shichang Wang Xiaoting Chen Zhitao Huo 《Landslides》2012,9(3):395-405
At 4:40p.m. on November 23, 2008, the Gongjiafang slope collapsed on the north bank of Yangtze River in Wu Gorge of Three Gorges Reservoir. The 380,000-m3 sliding mass consisted mainly of cataclastic rock. A video record of the major sliding incident was analyzed using the general laws of physical motion. The analysis indicated that the maximum speed and maximum acceleration of the sliding mass were 11.65?m/s and 2.23?m/s2, respectively, and that the maximum amplitude and the propagation velocity of the water wave near the landslide were 31.8?m and 18.36?m/s, respectively. Wave run-up investigation indicated that the maximum run-up on shore was 13.1?m, which declined to 1.1?m at Wushan dock 4?km away. The incident causes no casualties, but did result in economic losses of RMB five million. The numerical simulation model GEOWAVE was used to simulate and reproduced the impulse wave generated by the landslide; the results were in good agreement with the observed incident. The numerical simulation data were then applied to analyze the decay and amplification effects of the landslide wave in the river course. The field investigations and witness information provide valuable materials for the studies of landslide kinematics and impulse waves generated by landslides. In addition, the research results provide a useful reference for future similar waves generated by landslides in reservoirs. 相似文献
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Risk management study on impulse waves generated by Hongyanzi landslide in Three Gorges Reservoir of China on June 24, 2015 总被引:3,自引:1,他引:2
On June 24, 2015, Hongyanzi slope located in Wushan County of the Three Gorges Reservoir collapsed, generating 5–6-m-high impulse waves, which overturned 13 boats, killed 2 persons, and injured 4 persons. It is the second incident of landslide-generated impulse waves since the 175-m experimental impoundment in 2008. The emergency investigation shows that Hongyanzi landslide is a bedding soil landslide with a volume of 23?×?104 m3 induced by a series of triggering factors such as rainfall, flooding upstream, and reservoir drawdown. The nonlinear Boussinesq water wave model is used to reproduce the impulse waves generated by the landslide of June 24th. The numerical simulation results suggest that the wave propagation process was influenced by the T-shaped geomorphic conditions of river valley, and the coastal areas in the county seat were the major wave-affected areas, which is opposite to the landslide. The numerical wave process accord well with the observed incident, and the investigation values were in good agreement with the calculated values. Moreover, the worst-case scenario of the 7?×?104 m3 deformation mass beside Hongyanzi landslide is potential to generate impulse waves, which was predicted with the same numerical model. This adjacent deformation mass will probably generate impulse waves with maximum height and run-up of 2.2 and 2.0 m, respectively, and only a very few areas in the water course had waves rising to a height of 1 m or above. The research results provide a technical basis for emergency disposal to Hongyanzi landslide and navigation restriction in Wushan waterway. More importantly, it pushes the risk management of the navigation based on the impulse wave generated by landslide. It is advised that the Three Gorges Reservoir and other reservoirs around the world should put more efforts in performing special surveys and studies on the potential hazards associated with landslide-generated impulse waves. 相似文献
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水库滑坡涌浪传播有限元数值模拟 总被引:1,自引:0,他引:1
库岸滑坡涌浪危害巨大,正确预测库区可能的滑坡涌浪非常重要,是工程可行性论证的重要内容之一。将浅水控制方程应用于滑坡涌浪数值模拟,控制方程采用简便且具有较高精度的两步Taylor-Galerkin方法进行求解。通过算例对数值模型的应用进行验证,结果表明,涌浪产生后将以入水点为源点迅速向四周推进并不断衰减,且随传播距离的增加浪高降幅逐渐减小。计算的涌浪高度及水位变化规律与实测资料吻合得很好,并将滑坡涌浪的沿程传播过程可视化。研究结果表明,文中方法模拟滑坡涌浪传播是有效可行的,可用于滑坡涌浪灾害的预测和防治。 相似文献
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To quantify wave attenuation by (introduced) Spartina alterniflora vegetation at an exposed macrotidal coast in the Yangtze Estuary, China, wave parameters and water depth were measured during
13 consecutive tides at nine locations ranging from 10 m seaward to 50 m landward of the low marsh edge. During this period,
the incident wave height ranged from <0.1 to 1.5 m, the maximum of which is much higher than observed in other marsh areas
around the world. Our measurements and calculations showed that the wave attenuation rate per unit distance was 1 to 2 magnitudes
higher over the marsh than over an adjacent mudflat. Although the elevation gradient of the marsh margin was significantly
higher than that of the adjacent mudflat, more than 80% of wave attenuation was ascribed to the presence of vegetation, suggesting
that shoaling effects were of minor importance. On average, waves reaching the marsh were eliminated over a distance of ∼80 m,
although a marsh distance of ≥100 m was needed before the maximum height waves were fully attenuated during high tides. These
attenuation distances were longer than those previously found in American salt marshes, mainly due to the macrotidal and exposed
conditions at the present site. The ratio of water depth to plant height showed an inverse correlation with wave attenuation
rate, indicating that plant height is a crucial factor determining the efficiency of wave attenuation. Consequently, the tall
shoots of the introduced S. alterniflora makes this species much more efficient at attenuating waves than the shorter, native pioneer species in the Yangtze Estuary,
and should therefore be considered as a factor in coastal management during the present era of sea-level rise and global change.
We also found that wave attenuation across the salt marsh can be predicted using published models when a suitable coefficient
is incorporated to account for drag, which varies in place and time due to differences in plant characteristics and abiotic
conditions (i.e., bed gradient, initial water depth, and wave action). 相似文献
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滑坡除直接成灾外,还会产生次生灾害,滑坡体落入江河中,可形成巨大涌浪,造成较大的危害。涌浪高度除受滑速、失稳体积、水深等重要因素的影响外,波浪的形成还要受水库地形、库面宽度、滑坡入库过程的持续时间以及滑坡体的宽度等因素的影响,尤其在峡谷地区更为显著,且波浪在传播过程中,还受到河谷两岸的阻碍、往返的折射以及波群的相互干扰或迭加等影响。以藕塘滑坡为例,在滑波局部失稳情况下采用潘家铮涌浪算法,计算和预测滑体冲入库区后的滑速和造成的涌浪高度,并且考虑了地震作用和滑坡前缘泡在水中所产生的阻力。 相似文献
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印度河扇更新世发育的沉积物波结构复杂、形态多样,其形成过程的认识程度低。本次研究通过高分辨率地震数据和地震解释技术,研究了印度河扇沉积物波的波长、形态、波峰变化等形态特征;阐述了沉积物波与沉积物变形特征的差异、识别了两者的区分标志;总结了水道堤岸斜坡和区域斜坡上沉积物波的分布规律;在此基础上,讨论了沉积物波的形成机理和控制因素,分析了沉积物波的形成过程,并建立了印度河扇沉积物波的形成模式。研究表明: (1)研究区沉积物波波长平均为486.84 m,最大1473 m;波高在10~60 m之间,平均30 m。(2)沉积物波的形态有对称型和非对称型,其迁移方式有上坡迁移型、加积型和下坡迁移型;沉积物波主要发育在水道堤岸的斜坡上,在区域斜坡上也发育少量的沉积物波,这2种沉积物波波脊的走向差异很大,水道堤岸斜坡上的沉积物波主要分布于水道凹岸堤岸的外侧,距离水道越远其规模(波长、波高)越小,波脊走向近于NE-SW方向,与水道的走向平行或斜交;区域斜坡上的沉积物波波脊的走向多为NW-SE向,平行于区域斜坡的走向,离源区越远规模越大。(3)水道堤岸斜坡上的沉积物波是由水道型浊流在离心力的作用下,溢出水道的凹岸,在堤岸外侧的斜坡上沉积形成的,堤岸斜坡的角度对沉积物波的发育规模影响不大,浊流的强度和输沙量对其规模影响大;区域斜坡上发育的沉积物波是由顺坡而下的非水道化的浊流沉积形成;滑塌变形造成的起伏地貌以及早期沉积物波的存在,也都影响了后期沉积物波的发育。 相似文献
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印度河扇更新世发育的沉积物波结构复杂、形态多样,其形成过程的认识程度低。本次研究通过高分辨率地震数据和地震解释技术,研究了印度河扇沉积物波的波长、形态、波峰变化等形态特征;阐述了沉积物波与沉积物变形特征的差异、识别了两者的区分标志;总结了水道堤岸斜坡和区域斜坡上沉积物波的分布规律;在此基础上,讨论了沉积物波的形成机理和控制因素,分析了沉积物波的形成过程,并建立了印度河扇沉积物波的形成模式。研究表明: (1)研究区沉积物波波长平均为486.84 m,最大1473 m;波高在10~60 m之间,平均30 m。(2)沉积物波的形态有对称型和非对称型,其迁移方式有上坡迁移型、加积型和下坡迁移型;沉积物波主要发育在水道堤岸的斜坡上,在区域斜坡上也发育少量的沉积物波,这2种沉积物波波脊的走向差异很大,水道堤岸斜坡上的沉积物波主要分布于水道凹岸堤岸的外侧,距离水道越远其规模(波长、波高)越小,波脊走向近于NE-SW方向,与水道的走向平行或斜交;区域斜坡上的沉积物波波脊的走向多为NW-SE向,平行于区域斜坡的走向,离源区越远规模越大。(3)水道堤岸斜坡上的沉积物波是由水道型浊流在离心力的作用下,溢出水道的凹岸,在堤岸外侧的斜坡上沉积形成的,堤岸斜坡的角度对沉积物波的发育规模影响不大,浊流的强度和输沙量对其规模影响大;区域斜坡上发育的沉积物波是由顺坡而下的非水道化的浊流沉积形成;滑塌变形造成的起伏地貌以及早期沉积物波的存在,也都影响了后期沉积物波的发育。 相似文献
18.
This paper presents a study of the effects of a potential landslide in La Yesca Reservoir, Jalisco-Nayarit, Mexico. The main purpose of the paper is to predict the maximum wave amplitude, wave run-up, and dam overtopping. The landslide is formed by an unstable slope of more than 24 Mm3 that is partially submerged for the range of the reservoir operation levels. The dynamics of the sliding mass were obtained in detail considering that it moves over a pair of failure surfaces with the potential rupture of a third surface. The paper presents results of a physical model of the reservoir based on Froude similitude (scale 1:200). Impulse waves are produced with a solid wedge shape slide as it moves on rails. The movement was calibrated to reproduce the dynamics of the landslide. Also, numerical modelling of the event was performed with a 2D implicit model that solves the two-dimensional shallow water equations. In this case, the impulse waves were generated at each time increment with the variation of the ground elevation (obtained from the dynamics of the landslide) for the mesh points where the landslide passes. The results of both studies are similar. 相似文献
19.
Zhenzhu Meng 《Landslides》2018,15(6):1173-1182
This experimental study provides insight into impulse waves generated by a viscoplastic material. The viscoplastic material chosen is a stable polymeric gel called Carbopol Ultrez 10, which is approximately modeled as Herschel–Bulkley model. As observed from high-speed cameras, the viscoplastic material such as Carbopol moves as a long and thin train of material along the slope, and only a fraction of the sliding mass is engaged in generating the leading wave. Therefore, our primary objective is to study how much of the initial slide mass is able to contribute to the leading wave formation. For the sake of distinguishing the actual slide mass acting on the leading wave formation with the initial mass, we define the submarine slide mass when the leading wave reaches its maximum wave height as “effective mass”. In this work, we held the still water depth and slope angle constant, and varied the initial slide mass and slope length. Then, we measured the slide velocity, slide thickness, and slide mass at impact, as well as the wave amplitude and wave height. The results indicate that the effective mass is dependent on both the initial slide mass and the slope length. The ratio of the effective mass to the initial slide mass is less than 20% in our experimental range, and the ratio increases with larger initial mass. In addition, we also examined our experimental data with previous empirical equations developed from granular slides. By considering the effective mass instead of the initial slide mass, the prediction of impulse waves generated by viscoplastic material is significantly improved. 相似文献
20.
Although tsunamis in the deep ocean are very long waves of quite small amplitudes, as they propagate shorewards into shallow water, nonlinearity becomes important and the structure of the leading waves depends on the polarity of the incident wave from the deep ocean. In this paper, we use a variable-coefficient Korteweg–de Vries equation to examine this issue, for an initial wave which is either elevation, or depression, or a combination of each. We show that the leading waves can be described by a reduction of the Whitham modulation theory to a solitary wave train. We find that for an initial elevation, the leading waves are elevation solitary waves with an amplitude which varies inversely with the depth, with a pre-factor which is twice the maximum amplitude in the initial wave. By contrast, for an initial depression, the leading wave is a depression rarefaction wave, followed by a solitary wave train whose maximum amplitude of the leading wave is determined by the square root of the mass in the initial wave. 相似文献