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雨水入渗对非饱和土坡稳定性影响的参数研究 总被引:57,自引:1,他引:56
很多国家和地区的斜坡失稳与雨水入渗有密切关系。通过参数分析研究可以深化对这种关系的认识和理解,因而对滑坡灾害的预测和预防有重要意义。针对香港地区一种典型非饱和土斜坡,用有限元法模拟雨水入渗引起的暂态渗流场,然后将计算得到的暂态孔隙水压力分布用于斜坡的极限平衡分析。计算中采用延伸的摩尔-库伦破坏准则以便考虑基质吸力对抗剪强度的贡献,研究了降雨特征、水文地质条件及坡面防渗处理等因素对暂态渗流场和斜坡安全因数的影响。数值模拟结果表明:降雨强度、降雨历时和雨型对暂态渗流场及斜坡稳定性有明显的影响;土体的渗透系数,尤其是渗透系数各向异性的影响特别显著;斜坡中相对隔水层的存在以及斜坡防渗护面的效果等因素的影响均不容忽视。 相似文献
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基于FLAC3D平台的边坡非饱和降雨入渗分析 总被引:7,自引:0,他引:7
为研究降雨入渗条件下三维边坡渗流场的变化过程,在全面研究FLAC3D软件渗流分析模块功能及算法的基础上,通过编写FISH函数完善了FLAC3D软件的非饱和渗流计算功能。基于降雨入渗机制的分析,编写了降雨入渗及停雨出渗边界的FISH函数,实现边坡三维降雨入渗过程的模拟。通过降雨条件下算例边坡的饱和非饱和渗流场变化过程的数值计算,研究了降雨入渗引起的边坡暂态饱和区变化过程,并与已有研究成果进行对比分析,从而验证了自编FISH函数实现边坡三维非饱和渗流计算结果的正确性。研究成果表明,文中提出的边坡三维非饱和降雨入渗分析是可行的,同时也为三维边坡非饱和渗流场的研究提供了一条有益的途径。 相似文献
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近年来青藏高原多年冻土地区降雨量呈增大趋势,导致活动层沿多年冻土层滑脱,诱发的冻土浅层滑坡灾害严重影响区域生态环境和人类活动。冻土浅层滑坡失稳是渗流、温度和应力复杂耦合的过程,明确降雨条件下多年冻土斜坡水热力响应机制,揭示降雨诱发冻土浅层滑坡失稳的机理十分关键。基于冻土水热力耦合数值模拟方法,建立了仅施加气温变化的模型一和在气温变化基础上施加强度为9 mm·d-1、持续降雨18 d的模型二,探讨了低强度、长时间降雨对多年冻土斜坡水热力演化的影响。结果表明:夏季雨水入渗对斜坡浅层温度场产生扰动,进而影响土体冻融过程,活动层以下有形成富水层的可能。雨水入渗导致融土饱和度大幅增加,水分渗流方向由竖直向下逐渐转变为顺坡方向。极限状态下斜坡位移分布在活动层,符合冻土浅层滑坡变形特征,降雨入渗数天后活动层位移有显著增大的趋势,最大位移所在位置向坡脚转移。降雨对斜坡稳定性影响显著,雨水入渗对活动层水热力产生持续影响,斜坡安全系数最小值出现明显滞后。研究结果为青藏地区冻土浅层滑坡灾害防治提供了科学指导。 相似文献
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以某高速公路填筑试验路堤为例,基于非饱和土渗透及强度理论,采用渗流场与应力场、稳定性计算耦合的方法,对两种不同透水特性的路堤在降雨过程中孔隙水压力和稳定性系数随时间变化的特点及规律进行较为深入的探讨。结果表明,(1)透水性能较好的路堤斜坡下部降雨入渗要强于斜坡上部,透水性能较差的路堤斜坡,雨水往往以近似于均匀的形式入渗;(2)透水能力强的路堤斜坡在短暂的超强降雨或者强度较低但持续时间超长的降雨过程中,其最小稳定性系数易于出现滞后现象,一般滞后0.5~3 d,透水能力差的路堤斜坡最小稳定性系数有显著滞后特点,一般滞后7~15 d;(3)总降雨量一定、雨强大于等于50 mm/d条件下透水能力强斜坡能达到的最小稳定性系数随降雨时间增长而降低,而透水能力差的斜坡最小稳定性系数受雨强和降雨时间共同影响。 相似文献
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降雨型滑坡是我国主要的滑坡灾害类型,具有区域群集发生的特点,滑坡预警研究是防灾减灾的重要途径。传统的区域降雨型滑坡预报模型多采用统计结果建立降雨参数模型,对降雨诱发机理和斜坡失稳的力学机制考虑不足,预报可靠性和精度有限。本文以花岗岩风化壳地区某典型二元结构斜坡为原型,以实际勘查数据为基础,提取该斜坡结构特征,基于饱和-非饱和渗流理论,分析研究降雨入渗过程和斜坡失稳机制,建立典型斜坡的预警判据。1花岗岩风化壳地区典型二元结构斜坡为类土质斜坡,覆盖土层较厚,剖面上可分为两层,上层为坡积黏性土,土质松散,透水性强,下层为残积黏性土,土质相对致密,透水性较差。2采用不同降雨工况模拟分析降雨入渗过程。以50mm·d-1雨强为例,降雨持时30h以内时,降雨入渗主要集中在上层的坡积黏性土,斜坡前缘优先饱和,滑带开始出现积水现象;降雨持时40~50h时,斜坡表面降水持续入渗,在坡体后缘拉裂缝处,雨水沿着裂缝快速入渗坡体形成静水压力,增加坡体重量,增大下滑力,坡脚渗透路径短,最先饱和破坏,造成斜坡失稳。3监测斜坡不同部位(坡脚、中部、后缘)的孔隙水压力情况,随降雨入渗,斜坡土体孔隙水压力持续增大,由负趋近于零到大于零,斜坡土体由非饱和状态向饱和状态过渡,坡脚最先饱和,中部持续入渗,后缘土体饱和后,裂缝扩大致使大量雨水进入,使本已大量积水的滑带变形错动,斜坡失稳。4模拟分析得到斜坡失稳的不同降雨条件:中雨雨强(10mm·d-1),历时约13d;大雨雨强(25mm·d-1),历时约5d;暴雨雨强(50mm·d-1),历时约2.2d;特大暴雨雨强(100mm·d-1),历时约1.1d。在暴雨雨强时,降雨对该类斜坡的滞后作用约为5h。最后,建立了该类斜坡的临界降雨判据(I-D曲线)。 相似文献
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暴雨型滑坡降水入渗机理分析 总被引:11,自引:1,他引:10
暴雨能诱发大量的滑坡发生,在不同地区存在不同的临界降雨值,每当雨强大于该值时,滑坡就会大面积发生,这已经被多起滑坡事件证实。一般地,入渗理论认为,当雨强大于一定值时,入渗率是常量,过强的降水会转化为地表径流,这与雨强越大滑坡越易发生、群发性越强的观察结果不一致。在斜坡体上存在大量的裂隙,它们对降水入渗有着很大的贡献,应用有限单元法分别模拟了有裂隙和无裂隙时斜坡体内瞬态渗流场的变化,并用Bishop法对不同埋深滑动面的稳定性做了计算分析。模拟结果表明:考虑裂隙时的计算结果与宏观观察结果更一致,在评价降雨入渗对斜坡稳定性的影响时,一定要充分考虑裂隙的存在,只有雨强大于一个临界值时才会有充足的降水通过裂隙渗入到斜坡深部,裂隙的影响才显著地表现出来。 相似文献
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膨胀土边坡受降雨影响产生膨胀变形,是典型的非饱和土多场耦合问题。为探究降雨入渗对其渐进性破坏的失稳过程,基于饱和-非饱和渗流理论、膨胀土弹塑性本构关系和应变软化理论,利用应变软化模型、FLAC3D二次开发平台和内置FISH语言,提出了一种综合考虑非饱和渗流、膨胀变形和应变软化的多场耦合数值分析法。结合工程实例,通过该方法探讨了降雨入渗条件下膨胀土边坡非饱和渗流、位移响应及渐进性破坏的变化规律。结果表明:膨胀变形和应变软化受控于非饱和渗流的时空分布,对边坡位移响应过程影响显著,也易导致饱和-非饱和分界带形成剪应力集中区。膨胀土边坡渐进性破坏由局部破坏转变为整体性失稳,其塑性破坏区首先随悬挂型暂态饱和区的变化向坡内扩展,雨后逐渐形成第二条由坡脚向坡顶扩展的滑动带,呈现出多重滑动性和后退牵引式的破坏特征。 相似文献
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考虑径流影响的滑坡降雨入渗二维有限元模拟及应用 总被引:1,自引:0,他引:1
降雨是滑坡失稳的常见诱发因素之一,现有数值模拟方法由于不能考虑来自基岩边坡的径流对滑体渗流的补给而低估了真实的降雨入渗水量,导致在评价降雨对滑坡稳定性特别是深层滑动影响时存在一定不足。以Richards方程和有限元法为基础,忽略降雨对渗透性极低的滑床和滑带的影响,将滑坡渗流计算域缩小为滑体,以避免因滑体与滑床(滑带)渗透性差异巨大引起的数值计算困难;依据基岩边坡水平长度和滑体降雨入渗边界饱和情况,修正降雨入渗边界,实现了考虑径流补给的滑坡降雨入渗简化数值模拟。算例表明,该方法所得渗流场更加符合实际情况。以三峡库区某滑坡为例,模拟了2006年10月~2009年12月间滑坡在库水升降和降雨条件下的渗流场和安全系数的演化过程;计算结果表明,考虑径流补给时滑坡后部的渗流场饱和区域明显较大,稳定系数降低较多,与位移监测资料显示的佐证较为吻合;若不考虑径流补给,则降雨对滑坡稳定性影响不大。 相似文献
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降雨是导致斜坡破坏的主要原因。地下水位上升和在土中渗流引起土体应力状态的变化是导致斜坡在降雨过程中或降雨后变形与破坏的关键因素。填土斜坡的稳定性不仅取决于填土的强度,还与填土斜坡的排水条件密切相关。适当的排水条件不仅可以限制斜坡中地下水位上升的高度,而且可以及时消散因材料剪切收缩而生成的超孔隙水压力,防止土体液化,避免斜坡整体流动破坏。本文采用完全耦合有效应力分析程序和与状态相关的剪胀性砂土模型模拟地下水位上升过程中填土排水条件对压实填土斜坡稳定性的影响。完全耦合有效应力分析方法可以模拟孔隙水和土骨架间包括浮力和渗流在内的相互作用。分析结果表明斜坡排水条件是影响斜坡因地下水位上升而变形和破坏的重要因素,加固松散填土斜坡时必须设置适当的排水与泄水装置。 相似文献
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Rainfall-induced landslides can cause loss of life and damage to property, infrastructure, and the environment. Rainfall patterns affect the pore-water pressure of unsaturated soil slopes, and are related to the slopes’ stability. Four rainfall patterns were chosen to represent natural rainfall patterns for an examination of rainfall infiltration into soil slopes using numerical models incorporating coupled water infiltration and deformation in unsaturated soils. Our analysis showed that rainfall patterns play a significant role in the distribution of the pore-water pressure in soil slopes, and influence the slope stability. The pore-water pressure profile of soil slopes and the factor of safety are affected by the ratio of rainfall intensity and the coefficient of permeability. The depth and shape of the shallow sliding plane of the landslide is closely related to the rainfall pattern; moreover, the results showed a correlation between the factor of safety of the slope and the rainfall intensity. This relationship can be described by a dimensionless rainfall intensity. The nonlinear relationship can be used to estimate the slope stability resulting from rainfall infiltration when the hydro-mechanical coupling in unsaturated soil slopes is considered. 相似文献
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In this paper, we systematically analyze the pressure projection stabilization method for the Darcy and coupled Darcy–Stokes flow problems in multiple dimensions. Stability results for this stabilization method are established. For the Darcy flow, optimal error estimates in the divergence norm for velocity and suboptimal error estimates in the $L^{2}$ -norm for pressure are obtained, and a superconvergence result for the pressure is derived; a local postprocessing scheme is constructed to generate optimal error estimates in the L 2-norm for pressure. For the coupled Darcy–Stokes flow, error estimates of optimal order are obtained in terms of the energy norm of velocity and pressure. Numerical results are presented to check the theory developed. 相似文献
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Elizabeth J. Screaton 《Hydrogeology Journal》2010,18(7):1547-1570
Focused, interdisciplinary research in the subseafloor environment has advanced our understanding of fluid flow paths and the interrelationship between fluid pressure and deformation, heat flow, and diagenesis. Recent investigations in the Pacific Ocean, the Gulf of Mexico, and the North Sea provide examples of high rates of fluid flow in the permeable basement, with the flow affecting properties of overlying sediments. There are also some indications that flow could continue into subduction. Studies on continental slopes provide evidence for sedimentation-driven overpressures that can destabilize slopes. These studies particularly emphasize the contributions of lateral flow driven by uneven loading. Similarly, evidence continues to build that stratigraphic horizons and faults help to dewater subduction zones. A recent development is the monitoring of pore pressure, temperatures, flow, and fluid chemistry, which aids the understanding of transient behavior and response to strain events. 相似文献
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Novel cell-centred finite-volume formulations are presented for incompressible and immiscible two-phase flow with both gravity and capillary pressure effects on structured and unstructured grids. The Darcy-flux is approximated by a control-volume distributed multipoint flux approximation (CVD-MPFA) coupled with a higher resolution approximation for convective transport. The CVD-MPFA method is used for Darcy-flux approximation involving pressure, gravity, and capillary pressure flux operators. Two IMPES formulations for coupling the pressure equation with fluid transport are presented. The first is based on the classical total velocity Vt fractional flow (Buckley Leverett) formulation, and the second is based on a more recent Va formulation. The CVD-MPFA method is employed for both Vt and Va formulations. The advantages of both coupled formulations are contrasted. The methods are tested on a range of structured and unstructured quadrilateral and triangular grids. The tests show that the resulting methods are found to be comparable for a number of classical cases, including channel flow problems. However, when gravity is present, flow regimes are identified where the Va formulation becomes locally unstable, in contrast to the total velocity formulation. The test cases also show the advantages of the higher resolution method compared to standard first-order single-point upstream weighting. 相似文献
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边坡失稳系统的岩体与水固流耦合作用机理研究 总被引:4,自引:0,他引:4
将边坡失稳问题作为一个系统来考虑,以岩体水力学为基础,研究了地下水对岩体物理力学性质的影响以及岩体受力后孔隙、裂隙改变而使其渗透性质发生变化即岩体与水耦合作用下边坡的失稳机理,建立了该系统的应力场和渗流场的数学模型,并对具体实际问题进行了数值分析。结果表明,研究岩体与水固流耦合作用下的边坡失稳问题克服了以往仅考虑渗流场或应力场而带来的缺陷,具有一定的理论意义和实际应用价值。 相似文献
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The abstraction of ground water by vegetation and its influence on the behaviour of geotechnical structures such as pavements, foundations and slopes has been researched for many years. In recent years, the use of numerical methods in geotechnical engineering has rapidly increased. A major challenge for numerical modelers involves the specification of the surface flow boundary condition to model root water uptake by vegetation. The abstraction of ground water by roots is a complex process which involves the interaction of the atmosphere, vegetation and the ground. Accurate prediction of the pore water pressure changes induced by vegetation requires the development of algorithms which can mimic the process of transpiration by vegetation in the continuity equation of fluid flow. This paper presents a root water uptake model which has been coded into a finite element program that can perform coupled (mechanical and fluid flow behaviour) analyses. The input data includes rainfall, potential evapotranspiration and maximum root depth. The key features of the model are discussed first, followed by a presentation of results from a series of parametric studies. 相似文献
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为研究页岩气藏开发过程中介质变形和滑脱效应对微裂缝表观渗透率动态变化的影响规律,分析有效应力和多孔介质结构参数等对气体渗流影响机制,采用光滑平板模型,结合分形及气体微观渗流理论,建立了介质变形和滑脱效应耦合作用下的微裂缝表观渗透率动态模型,并对模型进行可靠性验证和参数敏感性分析。研究表明,页岩气藏降压开采过程中受介质变形和滑脱效应“一负一正”耦合影响,微裂缝表观渗透率呈先减小后增大趋势,且临界压力值约为5 MPa;不同有效应力状态下,由于介质变形和滑脱效应耦合机制的差异性,导致表观渗透率变化规律不同,从微观作用机制角度对实验中不同加载条件下页岩应力敏感性的差异做出了理论解释;微裂缝最大开度越小,表观渗透率曲线“凹槽”越深,同时微裂缝孔隙度及开度分形维数越高、迂曲度分形维数越低,表观渗透率值越大。 相似文献
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考虑孔隙水压力的土坡稳定性的有限元上限分析 总被引:3,自引:0,他引:3
基于塑性极限分析的上限定理,考虑孔隙水压力的影响,以结点速度为未知量,根据塑性流动约束条件、速度间断约束条件、速度边界约束条件以及由外功功率与内功功率相等条件得到的目标函数,建立了求解孔隙水压力条件下土坡稳定性的有限元塑性极限分析线性规划数学模型;可求得边坡安全系数的上限值及相应的机动容许位移场;最后对2个经典算例进行了分析,验证了提出方法和程序是正确可行的。 相似文献