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床面上泥沙颗粒的起动测量一直是泥沙运动规律研究的难题。为此,提出了一种基于B超成像技术的泥沙起动流速测量方法。在模型试验水槽中,该方法利用B超仪获取水下地形及其附近粒子的运行图像,通过图像处理技术分析统计床面附近运动粒子的成像光斑个数,并分析其与流速之间的关系。结果表明,B超成像光斑个数在泥沙起动过程中存在一个突变过程,且该突变过程与泥沙起动运动相对应,可用来判定泥沙起动及其对应的起动流速,并利用该流速下的床面地形变化验证了该方法的正确性。该方法具有无扰动无干扰、适合于清水和浑水、易于实现自动化测量的特点。 相似文献
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为深入揭示植被覆盖条件下坡面水流结构的内在规律,采用水槽模拟试验,系统研究了植被处于淹没及非淹没工况下淹没度对坡面流水动力学特性的影响。研究结果表明:坡度一定条件下,平均流速和雷诺数与淹没度均成正相关关系;柔性植被覆盖下,水流流型由缓流区过渡到急流区,综合阻力系数随淹没度的增加而减小,刚性植被覆盖条件下水流流型均处于缓流区;综合阻力系数呈单驼峰形式变化;峰值处淹没度为0.9,淹没度对相对摩阻流速的影响与其对阻力系数呈相反变化趋势,基于淹没度的阻力计算经验公式决定系数均达到0.97以上;由于淹没度对各水动力学参数的影响受制于坡度,在坡面水土保持中应根据山区坡度和水深选择适当的植被高度。 相似文献
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为揭示内部渗流对海岸冲流带泥沙起动的影响,系统地开展了斜坡海床冲流特性与泥沙起动机理研究。通过室内水槽开展了孤立波在可渗透和不可渗透斜坡海床上的冲流试验,测试了冲流过程中波高、波速等变化规律;建立了渗透海床冲流数值模型并通过试验结果进行验证;深入分析了床面渗流对其波浪流场动态特征以及床面泥沙起动的影响机理。研究表明,床面渗流作用加剧波浪的不对称性,在波浪上冲过程中因床面强入渗作用而增大了床面切应力;回流过程因入渗所造成流量损失而导致床面切应力减小。床面渗流引起床面颗粒有效重度和切应力变化而导致泥沙希尔兹数大大增加,加剧了泥沙起动现象,且床面切应力改变是引起泥沙希尔兹数变化的主要因素。 相似文献
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淹没刚性植被通过改变水流结构,造成时均流速、紊动强度、雷诺应力等水力参数垂线分布不均匀和沿程差异化。采用声学多普勒测速仪(ADV)测量3种淹没度(3.0、4.0、5.0)下的流速,结合统计学方法,系统分析植被段内及其上、下游过渡段流速和紊动特性差异。结果表明:植被显著增强了水流紊动,且紊动特性取值与淹没度正相关;植被段内流速差异在低淹没度下的植被层内和高淹没度下的自由流动层内更加显著,而紊动特性沿程增强,且垂线分布具有相似性,最大值点位于冠层顶部附近;当淹没度满足KH涡的形成和发展条件时,随淹没度的增大,植被段内紊动特性垂线分布出现转折点(临近此点梯度急剧减小并趋于0)的断面数量增多,经验证,在充分发展的紊流区此点可作为KH涡的上边界点。 相似文献
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为解析波流边界层内泥沙运动,建立了基于水动力-泥沙-床面互馈过程的波流边界层1DV泥沙数学模型,可用于模拟不同床面形态下粉沙-沙的含沙量过程。床面形态模块提供床面形态类型和相应参数;给出了平底和沙波床面粗糙高度和泥沙扩散系数的确定方法;采用了适宜粉沙及沙的制约沉速、底部参考浓度和起动剪切应力等公式;引入含沙量层化效应和制约沉降反映水动力与泥沙之间的相互影响。水槽试验资料验证表明,建立的模型较好地模拟了不同床面不同波流组合条件下的含沙量剖面。在此基础上,讨论了不同床面含沙量剖面模拟方法的差异,指出床面形态是决定含沙量变化的重要因素之一,仅通过改变床面粗糙高度不足以反映漩涡沙波床面的含沙量剖面特征。该模型可为研究波流边界层内泥沙运动和物质输运提供工具。 相似文献
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掌握三峡和葛洲坝枢纽间河段水沙及冲淤特性的变化规律,是河段诸多工程问题研究的前提。对大量水沙地形资料进行分析,探讨泥沙起动理论在冲刷预测中的应用。长江上游水库建设及两大枢纽相继运行,河段年径流量微减,月均流量发生"削峰填谷"重分配,年输沙量大幅降低,河段水沙关系显著改变;河段累积冲淤量受极端水文条件和枢纽调度的短期和长期控制,时间上具有明显阶段性特征,空间上则表现为部分子河段的活跃性;床沙组成随枢纽运行先后发生细化和粗化;基于沙玉清起动流速公式绘制了起动临界条件曲线图,通过推算断面最大可动床沙粒径或临界流量,可为河床冲刷可能性的预判提供参考。 相似文献
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从波浪引起的海床内部渗流与床面泥沙运动耦合的角度出发,研究波浪作用下海床临界冲刷机理及计算方法。研究表明,波浪作用下床面泥沙起动及冲刷是一个不断向下发展的过程,最终达到一个临界冲刷深度。波浪引起的渗流力能够显著降低泥沙的临界起动切应力,促进泥沙起动,是影响海床冲刷的一个重要因素。将渗流力引入到传统泥沙起动公式中,推导并给出了波浪作用下海床临界冲刷深度的计算方法。结合室内和现场两个算例,很好地解释了波浪水槽试验中海床"流化"现象和黄河水下三角洲粉砂流冲沟等灾害地貌特征及成因,初步验证了该方法用于评价和计算海床冲刷的有效性。 相似文献
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考虑渗流力的海床临界冲刷机理及计算方法 总被引:1,自引:0,他引:1
从波浪引起的海床内部渗流与床面泥沙运动耦合的角度出发,研究波浪作用下海床临界冲刷机理及计算方法。研究表明,波浪作用下床面泥沙起动及冲刷是一个不断向下发展的过程,最终达到一个临界冲刷深度。波浪引起的渗流力能够显著降低泥沙的临界起动切应力,促进泥沙起动,是影响海床冲刷的一个重要因素。将渗流力引入到传统泥沙起动公式中,推导并给出了波浪作用下海床临界冲刷深度的计算方法。结合室内和现场两个算例,很好地解释了波浪水槽试验中海床"流化"现象和黄河水下三角洲粉砂流冲沟等灾害地貌特征及成因,初步验证了该方法用于评价和计算海床冲刷的有效性。 相似文献
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天然河流床沙通常为非均匀沙,准确把握非均匀沙颗粒运动规律是模拟和预测天然河流河床演变的基础。开展了恒定均匀流条件下的非均匀沙推移质运动水槽试验,床沙粒径范围为0.10~20 mm。利用摄像机从顶部拍摄了粗化条件下的推移质颗粒运动,获取大量非均匀沙颗粒的运动轨迹,提取了颗粒运动速度、走停时间等基本运动参数,推移质运动颗粒粒径范围为0.74~8.19 mm。试验结果表明,非均匀沙床面聚集体或大颗粒使推移质颗粒运动方向发生改变,与均匀沙成果相比,非均匀沙推移质颗粒的纵向运动速度减小,横向运动速度增大;推移质颗粒纵向运动速度遵循指数分布,单次运动速度遵循Γ分布,横向运动速度及运动速度矢量角则遵循正态分布。 相似文献
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RANSOME K. T. CORNEY† JEFFREY PEAKALL DANIEL R. PARSONS LIONEL ELLIOTT† KATHRYN J. AMOS JAMES L. BEST GARETH M. KEEVIL DEREK B. INGHAM† 《Sedimentology》2006,53(2):249-257
The planform patterns of meandering submarine channels and subaerial fluvial bends show many similarities that have given rise to strong analogies concerning the fluid dynamics of these channel types. Existing models of helical motion in open‐channel bends depict flow that is characterized by surface flow towards the outer bank, and basal flow towards the inner bank. This paper investigates and compares, through an analytical model and physical experiment, flows within fluvial meanders, and submarine channel bends that contain density‐driven gravity currents. The results indicate that the sense of helical motion can be reversed in submarine bends that contain density currents when compared with fluvial bends, and that the orientation of the helical flow is dependent on the vertical distribution of downstream velocity. Specifically, the sense of helical motion is reversed in bends when the maximum downstream velocity is near the bed, resulting in near‐bed flow towards the outer bank. These findings suggest that the dynamics of sediment transport and deposition in curved channels with such velocity profiles will be fundamentally different to those currently assumed from sinuous open‐channels. 相似文献
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A discrete element method is applied to a three‐dimensional analysis related to sediment entrainment on a micro‐scale. Sediment entrainment is the process by which a fluid medium accelerates particles from rest and advects them upward until they are either transported as bedload or suspended by the flow. Modelling of the entrainment process is a critically important aspect for studies of erosion, pollutant resuspension and transport, and formation of bedforms in environmental flows. Previous discrete element method studies of sediment entrainment have assumed the flow within the particle bed to be negligible and have only allowed for the motion of the topmost particles. At the same time, micro‐scale experimental studies indicate that there is a small slip of the fluid flow at the top of the bed, indicating the presence of non‐vanishing fluid velocity within the topmost bed layers. The current study demonstrates that the onset of particle incipient motion, which immediately precedes particle entrainment, is highly sensitive to this small fluid flow within the topmost bed layers. Using an exponential decay profile for the inner‐bed fluid flow, the discrete element method calculations are repeated with different fluid penetration depths within the bed for several small particle Reynolds numbers. For cases with slip velocity corresponding to that observed in previous experiments with natural sediment, the predicted particle velocity is found to be a few percent of the fluid velocity at the top of the viscous wall layer, which is a reasonable range of velocities for observation of incipient particle motion. This method for prescribing the fluid flow within the particle bed allows for the current discrete element method to be extended in future studies to the analysis of sediment entrainment under the influence of events such as turbulent bursting. Additionally, predictions for the slip velocities and fluid flow profile within the bed suggest the need for further experimental studies to provide the data necessary for additional improvement of the discrete element method models. 相似文献
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目的是从非线性科学角度探讨泥沙运动的规律。通过分析非均匀沙起动的影响因素得到了尖点突变模型的状态变量和控制变量,建立了能描述推移质运动的尖点突变模型。在尖点突变标准方程的基础上,应用尖点突变理论的坐标变换和拓扑变换,导出了输沙强度和水流参数的函数关系式。将输沙强度作为状态变量,水流参数和床沙密实系数作为控制变量。用水槽实验资料和其它推移质输沙率公式进行了对比验证。验证结果表明,计算值与其它推移质输沙率公式和水槽实验结果基本相符,误差一般在-90%~80%之间。说明建立的推移质输沙率公式是合理的,能够反映泥沙的起动和输移规律。 相似文献
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Direct numerical simulation of bedload transport using a local, dynamic boundary condition 总被引:3,自引:0,他引:3
ABSTRACT Temporally and spatially averaged models of bedload transport are inadequate to describe the highly variable nature of particle motion at low transport stages. The primary sources of this variability are the resisting forces to downstream motion resulting from the geometrical relation (pocket friction angle) of a bed grain to the grains that it rests upon, variability of the near‐bed turbulent velocity field and the local modification of this velocity field by upstream, protruding grains. A model of bedload transport is presented that captures these sources of variability by directly integrating the equations of motion of each particle of a simulated mixed grain‐size sediment bed. Experimental data from the velocity field downstream and below the tops of upstream, protruding grains are presented. From these data, an empirical relation for the velocity modification resulting from upstream grains is provided to the bedload model. The temporal variability of near‐bed turbulence is provided by a measured near‐bed time series of velocity over a gravel bed. The distribution of pocket friction angles results as a consequence of directly calculating the initiation and cessation of motion of each particle as a result of the combination of fluid forcing and interaction with other particles. Calculations of bedload flux in a uniform boundary and simulated pocket friction angles agree favourably with previous studies. 相似文献
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The influence of vegetation on turbulence and flow velocities in European salt-marshes 总被引:5,自引:0,他引:5
Flow hindrance by salt‐marsh vegetation is manifested in the structure of the tidal current; it has a significant impact on sediment transport and it has been related to increased sediment accretion. The flow characteristics in three different vegetation types (Spartina maritima, Sp. anglica and Salicornia sp./Suaeda maritima) were measured on three salt‐marshes in Portugal and England. These in situ measurements differ from laboratory flume experiments with ‘clean’ vegetation by the complexity of natural canopies. Skimming flow develops above the Spartina canopy when the vegetation is fully submerged. In this situation, a low turbulence zone with nearly constant velocity in the denser canopy is separated from the skimming flow above by an interface characterized by high Reynolds stresses. In the low turbulence zone, a positive relationship exists between turbulence intensity and shoot density, which is due to wake turbulence generated locally in the canopy. The rate of particle settling should be increased in that zone. The lower limit of skimming flow is best predicted by the height within the canopy that includes 85% of the biomass. For emergent Spartina canopies and the short Salicornia/Suaeda marsh, the maximal velocity‐gradient is shifted upwards compared to a standard boundary layer over bare sediment and the turbulence is attenuated near the bed, but to a lesser extent than for fully submerged Spartina canopies. A turbulence reduction near the bed was observed in all measured profiles; that should enhance sediment deposition and protects the bed against subsequent erosion. 相似文献
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掌握三峡和葛洲坝枢纽间河段水沙及冲淤特性的变化规律,是河段诸多工程问题研究的前提。对大量水沙地形资料进行分析,探讨泥沙起动理论在冲刷预测中的应用。长江上游水库建设及两大枢纽相继运行,河段年径流量微减,月均流量发生"削峰填谷"重分配,年输沙量大幅降低,河段水沙关系显著改变;河段累积冲淤量受极端水文条件和枢纽调度的短期和长期控制,时间上具有明显阶段性特征,空间上则表现为部分子河段的活跃性;床沙组成随枢纽运行先后发生细化和粗化;基于沙玉清起动流速公式绘制了起动临界条件曲线图,通过推算断面最大可动床沙粒径或临界流量,可为河床冲刷可能性的预判提供参考。 相似文献