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1.
Stephen R.H. Worthington 《水文研究》2019,33(17):2373-2380
Groundwater often accounts for a substantial fraction of flood hydrographs, but the processes responsible for this have been unclear. However, many aquifers have preferential flow and this explains how aquifers can be so responsive. In bedrock aquifers, weathering enhances the connectivity and apertures along the most efficient flow paths and hence enhances the permeability. This results in celerities and velocities of the preferential flow in these dual‐porosity aquifers that are two to three orders of magnitude higher than if the aquifers behaved as single‐porosity media. The celerities have been determined from artificial and natural flood pulses, from tidal lags, and from pumping tests. Preferential‐flow velocities have been calculated from tests using applied tracers. Celerities in bedrock aquifers are typically one to two orders of magnitude faster than velocities. The ubiquitous preferential flow in aquifers provides an additional explanation, besides groundwater ridging, for the rapid release of groundwater to streams during storm events. 相似文献
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Abstract The Seddon speed formula expressed mathematically as c = dQ/dA (or alternatively, as c = (1 + m)uo; where Q is the discharge, A is the area of cross-section, c is the wave speed, uo is the normal flow velocity, and m is a dimensionless parameter) is revisited in the context of elasticity and thermodynamics. Its link with the linearized solution of St Venant's equations for wave celerity, which does not appear to have been reported in the hydrological literature, is established. The rating exponent m is shown to be equivalent to the dimensionless relative celerity and is found to be the ratio of two specific heats, viz. cp and cv which are the specific heats at constant pressure and volume, respectively. The use of the parameter m as a complex variable helps describe shallow wave characteristics, the damping capacity of a wave, and the mechanism of occurrence of the hysteretic phenomenon. The damping capacity is found to describe the magnitude of wave subsidence, whereas the hysteresis also describes the speed of subsidence. 相似文献
3.
无人机快速获取地震灾情的应用探索 总被引:2,自引:0,他引:2
快速获取地震灾情对于应急救援决策和指挥是非常重要的。大地震造成通讯和交通设施破坏,使应急救援指挥部不能及时全面了解灾情,汶川地震已经给我们惨痛的教训。为此,我们开展了用无人机快速获取地震灾情的探索。 相似文献
4.
The aim of this study is to examine the annual regime of channel scour and fill by monitoring bed‐elevation changes in a reach of Squamish River in southwestern British Columbia, Canada. Sonar surveys of 13 river cross‐sections in a sandy gravel‐bed single‐channel study reach were repeated biweekly over a full hydrologic year (1995/6). The survey results show that bedload movement occurs as waves or pulses forming bedwaves that appear to maintain an overall coherence with movement downstream. These bedwaves propagate downstream by a mode here termed pulse scour and pulse fill, a process distinguished from the conventional mode of scour and fill commonly associated with flood events (here termed local scour and local fill). Bedwave celerity was estimated to be about 15·5 m d−1 corresponding to a bedwave residence time in the study reach of almost one hydrologic year. The total amount of local bed‐elevation change ranged between 0·22 m and 2·41 m during the period of study. Analysis of the bed‐elevation and flow data reveals that, because of the bedwave phenomenon, there is no simple relation between the mean bed‐elevation and discharge nor any strong linear correlation among cross‐sectional behaviour. The bed‐elevation data also suggest that complex changes to the bed within a cross‐section are masked when the bed is viewed in one dimension, although no definitive trends in bed behaviour were found in the two‐dimensional analysis. Although a weak seasonal effect is evident in this study, the bed‐elevation regime is dominated by sediment supply‐driven fluctuations in bedload transport occurring at timescales shorter than the seasonal fluctuation in discharge. The study also indicates that bed‐elevation monitoring on Squamish River, and others like it, for purposes of detecting and measuring aggradation/degradation must take into account very considerable and normal channel‐bed variability operating at timescales from hours to months. Copyright © 2000 John Wiley & Sons, Ltd. 相似文献
5.
琼州海峡东口底形平衡域谱分析 总被引:3,自引:0,他引:3
1993年用GPY浅地层剖面仪对琼州海峡东口中水道两个水深18~40m的浅段进行网格状探测,通过对探测记录的平衡域谱分析近似计算底形运动速率。探测、分析和计算结果表明:分布在深处的大型不对称沙波平均波长416m、平均波高8.8m,平均运动速率0.92cm/h;分布在浅处的小型对称、不对称沙波平均波长144m、平均波高4.9m,平均运动速率5.13cm/h。虽然这些底形运动速率大于用经验公式和其它理论公式的计算值,却接近于近年来的原位观测值和相似尺度底形风洞实验值,所以平衡域谱分析是一种相对简便准确的小尺度底形稳定性评估方法。 相似文献
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7.
Aline Meyer Ayan Santos Fleischmann Walter Collischonn Rodrigo Paiva Pedro Jardim 《水文科学杂志》2013,58(15-16):2035-2047
ABSTRACTAn accurate comprehension of celerity (flood wave speed) dynamics is a key step for understanding flood wave propagation in rivers. We present the results of empirically estimated celerity values in 12 Brazilian rivers, and analyse the behaviour of celerity–discharge relationships (CxQ). Celerity was estimated with a reach-scale (RS) method, based on the peak travel time between stations; and with a local-scale (LS) method, based on the derivative of discharge–cross-section area relationships surveyed at gauging stations. The results indicate that the magnitudes of celerity values obtained by the methods are reasonably comparable, and can rarely be considered constant, varying with river discharge. Three reaches presented differing CxQ relationships at local and reach scales, which suggests that in situ cross-sections at gauging stations should not be extrapolated as representative of the whole reach for flood routing studies, and that CxQ relationship assessments might provide relevant insights for hydrological modelling. 相似文献
8.
珠江“伶仃洋河口湾-虎门-潮汐通道”是珠江河口“网-湾”系统中的特殊地貌结构, 属潮优型河口, 潮波传播受河口湾地形辐聚效应、口门转换效应、潮汐通道辐散效应和底床摩擦等显著影响, 其时空变化复杂。本文根据珠江“伶仃洋河口湾-虎门-潮汐通道”的代表潮位站(赤湾、泗盛围和黄埔)1990—2016年逐日高、低潮位资料, 采用经典调和分析方法提取出主要天文分潮的调和常数, 通过计算获得了分潮振幅梯度及传播速度, 并在此基础上分析了伶仃洋河口湾(赤湾-泗盛围)、潮汐通道(泗盛围-黄埔)和总程(赤湾-泗盛围-黄埔)的潮波传播时空特征。结果表明: 全日分潮的振幅梯度和传播速度年均变化率均比半日分潮大, 其中K1和O1分潮的振幅梯度平均每年分别增加9%和18%, 传播速度每年均增加1.4%; M2和S2分潮的振幅梯度平均每年分别增加3%和6%, 传播速度每年均增加1%。人类活动导致地形异变, 进而驱动潮波亦发生突变, 伶仃洋河口湾和潮汐通道的M2分潮传播速度突变年份不同, 分别为2009年和2000年。潮波传播速度突变后, 伶仃洋河口湾、潮汐通道两区段的传播速度和振幅梯度的关系也发生了变化。 相似文献
9.
Ping Zhang Qingshu Yang Haidong Pan Heng Wang Meifang Xie Huayang Cai Nanyang Chu Liangwen Jia 《海洋学报(英文版)》2021,40(10):49-64
Natural and human-induced changes may exert considerable impacts on the seasonal and nodal dynamics of M2 and K1 tidal constituents. Therefore, quantifying the influences of these factors on tidal regime changes is essential for sustainable water resources management in coastal environments. In this study, the enhanced harmonic analysis was applied to extract the seasonal variability of the M2 and K1 tidal amplitudes and phases at three gauging stations along Lingdingyang Bay of the Zhujiang River Delta. The seasonal dynamics in terms of tidal wave celerity and amplification/damping rate were used to quantify the impacts of human-induced estuarine morphological alterations on M2 and K1 tidal hydrodynamics in inner and outer Lingdingyang Bay. The results show that both tidal amplification/damping rate and wave celerity were considerably increased from the pre-anthropogenic activity period (Pre-AAP) to the post-anthropogenic activity period (Post-AAP) excepting the tidal amplification/damping rate in outer Lingdingyang Bay, and the variations in outer Lingdingyang Bay was larger than those in inner Lingdingyang Bay. The alterations in these two parameters were more significant in flood season than in dry season in both inner and outer Lingdingyang Bay. The seasonal variability of M2 and K1 tidal amplitudes were further quantified using a regression model accounting for the 18.61-year lunar nodal modulation, where this study observes a considerable alteration in M2 constituent owing to human interventions. During the Post-AAP, the M2 amplitudes at the downstream station were larger than those that would have occurred in the absence of strong human interventions, whereas the opposite was true for the upstream station, leading to a substantial decrease in tidal amplification in outer Lingdingyang Bay. However, it is opposite in inner Lingdingyang Bay. The underlying mechanism can be primarily attributed to channel deepening and narrowing caused by human interventions, that resulted in substantial enlargement of the bay volume and reduced the effective bottom friction, leading to faster wave celerity and stronger amplified waves. 相似文献
10.
The equations of Hedges [Hedges, T.S., 2009. Discussion of “A function to determine wavelength from deep into shallow water based on the length of the cnoidal wave at breaking” by J.P. Le Roux, Coastal Eng.], although yielding similar wavelengths, are not consistent with the fact that the horizontal water particle velocity in the wave crest should equal the wave celerity at breaking over a nearly horizontal bottom. 相似文献