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1.
针对低弗劳德数水流消能问题,在确定单级消力池和二级消力池体型的基础上,采用物理模型试验方法,分别研究了低弗劳德数水流单级和二级消力池的水力特性和消能结构特性。结果表明,在低弗劳德数水流条件下,二级消力池将原单级消力池出池水面较大波动区变成了适应区,对下游尾水位的适应区间显著增加,出池水面波动更小。同时,单级消力池内流线更加稀疏,流速梯度更小;消力池涡量大小明显低于二级消力池,而雷诺应力明显大于二级消力池;二级消力池内雷诺应力大小分区较单级消力池更明显,表面旋滚区明显大于底部旋滚区,水流更加稳定。相比单级消力池,二级消力池消能率显著提高,且有利于下游河床和岸边的防冲保护,工程应用更为有利。 相似文献
2.
低弗劳德数水流条件下,二级消力池是解决消能问题的一种有效途径。但至今为止,有关二级消力池的工程应用研究较多,而在体型参数和消能机理方面研究较少。为此,采用理论分析和物理模型试验相结合的方法,研究了低弗劳德数水流二级消力池体型参数及其敏感性。结果表明:消力池的长度、深度和尾坎高度等参数都存在界限值,超出界限值时第一级消力池易于产生波状或远驱水跃,而第二级消力池出池水面波动显著增大。池长小于界限值时,消力池池内流态恶化,消能率明显降低;尾坎高度越低,消波效果越好。优化后的二级消力池消能率明显提高,且二级消力池对尾水位的适应性也显著扩大。引入尾坎高度修正系数ωi,提出了各级池长和尾坎高度的计算公式。 相似文献
3.
为进一步优化拦砂坝溢流口体型,确定溢流口几何参数取值,通过物理模拟实验研究了不同拦砂坝溢流口体型条件下泥石流过坝的流态、坝后冲刷深度、消能率变化规律,并根据拦砂坝埋深设计标准与松散体水下临界平衡关系,探讨了溢流口收缩率的合理取值范围,结果表明:采用斜面或者大倾角的反弧型溢流口时,坝后泥石流落点与坝脚的距离近、冲刷深度大,而采用无倾角的反弧型溢流面时,不仅可以在一定程度上减小冲刷深度,而且大大增加了坝后泥石流落点与坝脚的距离;在泥石流规模与溢流面曲率半径相同情况下,适当增大侧向收缩率,有利于增强泥石流体与坝后动床之间的相互作用,提高泥石流通过坝后冲刷坑的消能率;当溢流口收缩率在0.2~0.6之间时,冲刷深度满足设计要求,且泥石流跌落点距坝脚较远,冲刷坑发展不会危及坝体安全。 相似文献
4.
山区季节性溪流流量变化大,已有灌溉渠道量水设施难以在较大流量范围内均达到测流精度要求,本文以克伦普堰和排淤量水槽组合而成的堰槽组合量水设施为试验对象,通过试验探究其测流机制。根据流量在5~79 L/s范围内的概化水槽水力性能试验,分析不同流量下的水面线、弗劳德数、垂线纵向时均流速、薄水层特征长度和特征宽度的变化,建立不同流量阈值范围内的测流公式。结果表明:①随流量的增大,堰槽组合设施流动形态从槽内流变为堰流,流量阈值对应的阈值相对水深为0.885,拟合得到组合设施槽内流和堰流的测流公式,与实测流量对比,相对误差小于3%。②组合设施槽内流和堰流水力特性不同,槽内流时槽内各测点纵向时均流速、薄水层的特征长度和特征宽度以及综合流量系数均随着流量增大而增大;堰流时,排淤量水槽槽内前段各测点纵向时均流速随着流量增大而减小,后段各测点纵向时均流速随着流量增大而增大,槽内收缩扭面段中部附近断面平均流速大小一致。③堰槽组合流量系数随着流量增大而减小。④堰槽设施下游薄水层的特征长度和特征宽度随着流量增大有下降趋势,最大值均出现在流量阈值情况下。本研究有效解决了流量变幅较大的明渠测流设施匮乏问题,可为山区季节性溪流测流设施应用提供参考。 相似文献
5.
The present study has been a pioneering effort examining the role of an annual flood as a potent stimulus inducing changes in channel geomorphology of the Mayurakshi River, India. Twenty cross sections have been considered for the measurement of various hydro-geomorphic attributes of the river in both the pre- and post-flood conditions in 2018. The study sensed an escalating trend for channel width, width/depth ratio, and wetted perimeter while the reverse was also detected for average depth, maximum depth, cross-sectional area, and hydraulic radius. For example, the width/depth ratio recorded an increase of?~?11%, and the hydraulic radius depicted a decrease of?~?8%. Furthermore, channel asymmetry, bed asymmetry and bed relief index experienced a decrease after the flood. The sudden hydraulic impulse during monsoon flood as manifested in velocity, discharge, specific stream power, Reynolds number, Froude number increases the erosivity of the fluid. Besides the hydraulic factors, bank material (massive sandbank susceptible to hydraulic action and mixed bank constituted by alternate bands of sand and silt, and vulnerable to failure by piping action) brings substantial changes in channel morphology. Moreover, anthropogenic interventions such as sand mining are found to play a significant role in channel behaviour. The role of the multiple factors driving the morphological changes of the cross sections has been unpacked using canonical component analysis. 相似文献
6.
Flip buckets are often used at the end of chute spillways to dissipate energy and direct flow to submergence plunge pool and especially in large dams. Flip buckets with central deviation also are a specific and new design of these buckets that have a transverse slope and are mixed in plan with a curvature. In this paper, the experimental and numerical simulation study of sediment scouring in such flip bucket has been targeted. Extensive experimental data are obtained from physical model studies conducted at Water Research Institute, Iran. The flow field with various flood discharges in a range of Froude numbers ( Fr?=? \(V/\sqrt {gh}\): 3.5–7.5) in Flow3D model was compared to experimental results obtained from a similar model. Analyzing the simulated models in the Flow3D model and comparing the results with the experimental model, the hydraulic parameters of the pressure, velocity and depth of flow are determined. Considering the accuracy of the numerical model in simulating bed scouring, this model can be used for similar cases in large dams. The results of the simulation model compare well with the experimental results in parameters of the maximum scour depth, profile scouring and the ridge height which accumulates around downstream of the scour hole. This investigation improves the understanding of bed topography effects of downstream dams in high-velocity jet impact based on experimental observations and simulation analysis. 相似文献
7.
采用数值模拟和模型试验相结合的方法,分析了水股分层、坎高、出口体型和跌坎形式等因素对多股水平淹没射流的流态稳定性和水力特性的影响。研究表明,多股多层水平淹没射流较单层多股水平淹没射流流态稳定性好、临底流速低、消能率高,是一种高效的新型消能方式。结合试验结果,提出中孔泄槽以等宽或微收缩为宜、表中孔最优坎高差应大于中孔水流的主流水深、跌坎形式的选择应结合具体工程特点等建议。 相似文献
8.
Hydraulic data defining the dune:antidune transition in fine gravel are compared with potential flow theory, and information is drawn from published experiments and field‐based studies. Attention is given to both transitional bedforms and the development of downstream‐migrating antidunes. In the latter case, most data pertain to sand beds and not to gravel. Empirical data provide some weak support for the theoretical notion that the transition occurs at progressively lower Froude numbers at greater relative depths. Although a critical Froude number of 0·84 may reasonably be applied for the beginning of the dune to antidune transformation, lag effects (and a possible depth limitation) ensure that transitional bedforms may persist across a broad range of Froude numbers from 0·5 to 1·8. This latter observation has great relevance for palaeohydraulic estimates derived from outcrop data. Whereas the application of theoretical bedform existence fields, based upon potential flow theory, to fine gravel was previously purely speculative, the addition of experimental and field data to these plots provides a degree of confidence in applying stability theory to practical geological problems. For the first time, laboratory data pertaining to downstream‐migrating gravel antidunes are compared with theory. These bedforms have been reported from certain experimental near‐critical flows above sand or gravel beds, but have been observed infrequently in natural streams. However, there are no detailed studies from natural rivers and only a few contentious identifications from outcrops. Nevertheless, the limited hydraulic data conform to theoretical expectations. 相似文献
9.
针对不能采用挑流消能型式的大型水电工程,提出了多股多层水平淹没射流新型消能型式.它是利用与下游消力池底板具有一定高差且基本平行的多股射流进入消能水体的中间,在每一股射流的四周形成强剪切并各有一个较为稳定的三元紊动旋滚的水平多股淹没射流进行消能.对该消能方式的水力特性和消能特性进行理论分析,推导出三元水平多股淹没射流水力参数计算公式,计算结果表明它是一种流态稳定、适应性强、低雾化、高消能率,有利于降低临底流速的新型消能方式. 相似文献
10.
Understanding the formation of tidal bores is of great importance to the changing morphology of estuaries. This study investigates how the slope of tidal bores front changes by influence of varying shape and depth in estuaries. A new analytical solution of the slope was derived from the 1D shallow water equation and two numerical models were developed based on the Upwind scheme and Superbee schemes to simulate the propagation of tidal waves. Six cases were utilized to investigate the influences of decreasing width and depth on the generation of tidal bores. Analytical results suggest that the initial depth is considered to have more significant influence on the generation of tidal bore than the initial width. Compared with the analytical results, Scheme 2, which is based on Superbee scheme, is found to be superior to the other scheme and its results show a good agreement with the new analytical solution. Both analytical and numerical results show that the decrease of width and depth can promote the generation of tidal bores. In contrast, tidal bores may weaken or even not form due to the energy dissipation bottom friction induced. 相似文献
11.
采用改进的低频内耗仪研究了几种常见颗粒体系(沙子、玻璃珠)的相对能量耗散性质:能量耗散的振幅谱和频率谱。实验发现,振幅谱中随振幅增大形成一个能量耗散峰,而频率谱线中则观察到随着频率的增加依次出现四个能量耗散峰,对应着体系模量的四个衰减。随探针插入深度的增加相对能耗先增加后减小,出现一个能耗峰值,该峰值对应的深度为体系的临界深度。基于对颗粒体系的介观分析,提出一个流变模型来阐述流变耗散机制,结果表明摩擦在颗粒力学响应中除耗散能量外还起到增加体系弹性的作用。频率谱的分析表明颗粒中还存在另一种耗散机制:颗粒链的共振耗散。 相似文献
12.
The Monterey East system is formed by large‐scale sediment waves deposited as a result of flows stripped from the deeply incised Monterey fan valley (Monterey Channel) at the apex of the Shepard Meander. The system is dissected by a linear series of steps that take the form of scour‐shaped depressions ranging from 3·5 to 4·5 km in width, 3 to 6 km in length and from 80 to 200 m in depth. These giant scours are aligned downstream from a breech in the levee on the southern side of the Shepard Meander. The floor of the breech is only 150 m above the floor of the Monterey fan valley but more than 100 m below the levee crests resulting in significant flow stripping. Numerical modeling suggests that the steps in the Monterey East system were created by Froude‐supercritical turbidity currents stripped from the main flow in the Monterey channel itself. Froude‐supercritical flow over an erodible bed can be subject to an instability that gives rise to the formation of cyclic steps, i.e. trains of upstream‐migrating steps bounded upstream and downstream by hydraulic jumps in the flow above them. The flow that creates these steps may be net‐erosional or net‐depositional. In the former case it gives rise to trains of scours such as those in the Monterey East system, and in the latter case it gives rise to the familiar trains of upstream‐migrating sediment waves commonly seen on submarine levees. The Monterey East system provides a unique opportunity to introduce the concept of cyclic steps in the submarine environment to study processes that might result in channel initiation on modern submarine fans. 相似文献
13.
Flume experiments with medium sand confirm the increasing complexity in the shape of small-scale current ripples with increasing flow velocity for constant depth. Experiments suggest that a measure of ripple shape (the ratio of wavelengths of transverse to streamwise features, λ- x/λ- z) has a more complex relationship with the flow property (Fr, H?/d?) (where Fr is Froude Number of the flow and H?/d? is relative roughness), than was previously realized. It is suggested that hydraulic properties of the flow at the sediment water interface have a more general relationship with ripple form than do properties of the whole flow such as Froude and Reynolds Numbers. Properties of the whole flow tend to separate data into depthrelated curves at shallow flows where the free water surface influences the structure of the turbulence. 相似文献
14.
柔性防护网是防治泥石流灾害的重要工程措施之一,现有防治结构以闭口防护网形式为主,易发生堵塞且调控能力欠佳。为此,提出一种开口柔性防护网结构,并基于理论分析、物理模型试验开展了开口柔性防护网对泥石流的调控性能研究,推导泥石流速度衰减率、爬升高度和柔性防护网拦挡率的理论公式。结果表明:与闭口柔性防护网结构相比,该结构起到了良好的自清洁作用,且可有效调控泥石流速度峰值;所推导的无量纲理论公式计算结果与物理试验结果具有较好的一致性;速度衰减率、爬升高度和拦挡率主要由相对开口高度、无量纲流深、泥石流相对密度和弗罗德数控制;速度衰减率和拦挡率与相对开口高度呈负相关,与泥石流相对密度呈正相关,爬升高度与相对开口高度、相对密度均呈负相关。上述研究可为开口柔性防护网在泥石流防治工程中的应用提供理论及技术支持。 相似文献
15.
Backward erosion piping (BEP) is a failure mechanism that can affect the safety of water-retaining structures. It can occur when a local anomaly on the downstream side of an embankment causes a concentration of seepage flow at that location. Shallow pipes may then form, progressing in the upstream direction and leading to a collapse of the water-retaining structure. A novel and economically appealing measure against BEP is the coarse sand barrier (CSB), which is now being developed in a multiscale experimental programme in the Netherlands. The method involves placing a trench filled with coarse sand below the blanket layer on the downstream side of the embankment. The CSB prevents the upstream progression of the pipe and significantly enhances resistance to BEP. This paper presents medium-scale laboratory tests involving a range of sands, barrier depths and relative densities. The piping process and the observations of pipe progression in the presence of a CSB are presented, followed by a conceptual model. The presence of a CSB changed the erosion pattern. It resulted in pipe formation perpendicular to the flow direction over the entire width of the barrier before the barrier was damaged. The findings also demonstrate the effect of material properties on pipe initiation, progression and pipe depth. Measurements of the pipe depth are presented and analysed, revealing the significance of pipe depth for understanding the piping process. This analysis shows considerable erosion in the downstream background sand and demonstrates that erosion profiles and measured pipe depths are significantly larger than in BEP tests without a CSB. 相似文献
16.
箭猪坡铅锌锑多金属矿床是桂西北丹池成矿带南段五圩矿田中规模最大、特征最为典型的一个大型矿床。根据野外地质调查及岩相学观察,将区内成矿分为三个成矿阶段,并对主成矿阶段的石英、方解石及闪锌矿中流体包裹体进行了研究。箭猪坡矿床流体包裹体类型主要有H_2O-NaCl型、H_2ONaCl-CO_2型和纯CO_2型。显微测温实验结果表明:两相H_2O-NaCl型包裹体均一温度为113℃~288℃,主要分布范围160℃~200℃,盐度w(NaCl)为3.53%~8.27%,主要集中于4.0%~6.0%,密度为0.799~0.996g/cm3;H_2O-NaCl-CO_2型包裹体均一温度为175℃~328℃,主要分布范围260℃~320℃,盐度w(NaCl)为0.21%~11.84%,主要集中于4.0%~7.0%,密度为0.654~0.842g/cm~3,成矿流体的捕获压力为46.5~99.7MPa,换算成矿深度为1.75~3.77km。依据流体盐度和温度空间分布变化规律并结合区内构造地质特征研究认为,箭猪坡矿床成矿流体由北边深部向南部运移,矿体向北侧伏,矿区中段背斜拐弯部位及北段的深部为今后找矿方向。 相似文献
17.
为解决下游深尾水工程中常规底流式消力池内由于消能紊动不足引起出池水流二次水跃、冲刷下游天然河床等一系列工程难题,结合物理模型和数值模拟对比研究平尾墩、常规宽尾墩以及非完全宽尾墩下游消力池内流场差异。研究结果表明:非完全宽尾墩利用平尾墩闸室与相邻宽尾墩闸室入池水流横向水位落差和纵向流速梯度,迫使雍高射流入池水流呈弧形横向扩散、碰撞,显著增强剪切紊动,促使消力池上游区域形成由底至表不断发展壮大的立轴旋滚,提升消力池内能量紊动耗散、降低出池水流流速,完全解决常规底流式消力池中易出现的二次水跃、消能不充分等问题。 相似文献
18.
支流汇入主流后,在明渠交汇口下游附近形成分离区,造成过流断面束窄.采用水力学基本理论及试验手段,对等宽明渠交汇口水流分离区的形状及尺寸进行了理论分析和试验研究,提出了分离区收缩系数及能量损失系数的理论表达式并与试验结果进行了比较.研究结果表明,随交汇角或主支流流量相对大小不同,分离区尺寸发生变化;对于给定交汇口几何形状及尺寸,分离区形状基本保持不变,但分离区尺寸随流量比变化并具有较好的相关关系,并随交汇角增大呈有规律增加. 相似文献
19.
为研究不同流量比的两股射流入射水垫塘后的消能特性,选用非定常不可压缩流动的N-S方程和RNG k-ε紊流模型,采用VOF(Volume of Fluid)法结合溪洛渡双曲拱坝水垫塘进行了数值模拟,分析了流量比对水垫塘底板的冲击压力、临底速度、流态特征影响,并定量研究了流场内时均动能的衰减规律。研究表明,随着上游水股射流流量的减小,上游水股对底板的冲击压力在逐渐减小,由上游水股产生的动水垫作用逐渐减弱,使得下游水股对底板的冲击压力在逐渐增大;水垫塘流场呈现为具有动水垫效应的单股射流和动水垫效应微弱的单股射流两种形态。定量计算结果表明:对于上游水股射流,时均流速梯度较大,时均动能衰减较快,且随着上游水股射流流量减小,时均动能衰减速度加快,而下游水股射流的时均流能量比值和时均消能率总体小于上游水股射流消能率。 相似文献
20.
基于非饱和土壤水分运动理论,采用数值模拟方法研究了4种降雨作用下生物滞留带结构层参数对设施积水、产流及径流调控效应的影响特性。结果表明:生物滞留带表层积水受蓄水层深度影响显著,随蓄水层深度由20 cm增加到30 cm,设施的溢流控制水量平均提高0.196 m3左右,但积水时长增加可达85 min;生物滞留带各结构层参数对穿孔管产流均有一定影响,随种植土层与砂滤层厚度比或内部储水区高度增加,穿孔管产流时刻推迟,产流峰值减小,而蓄水层深度的增加则可导致穿孔管产流时刻提前、产流峰值增大;在4种降雨作用下,5类滞留带径流量平均消减率为16.71%~37.31%,径流峰值平均消减率为41.53%~63.90%,产流平均延迟时间为97.75~166.50 min;当滞留带发生溢流时,设施的径流调控能力显著降低,且结构层参数对设施径流调控效果的影响减弱。 相似文献
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