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1.
基于二维运动波模型,建立了一个适用于小流域场次降雨产汇流过程的动力学模型。通过对典型小流域内不同区域(坡顶、坡中及坡底区域及距离流域出口的远近)种植植被时产流过程的数值模拟,分析了小流域内植被分布对产流过程的影响。结果表明:植被分布及其特性对小流域场次降雨产流有较明显的影响;下游区域种植植被的减水效果和延滞洪峰作用优于上游区域,陡坡区域减水效果优于缓坡区域,且郁闭度越大,这种差别越明显;在该研究条件下,下游区的减水效果可达到上游区的3倍;30%郁闭度条件下减水效果可达10%和20%郁闭度条件下的3倍和1.4倍。 相似文献
2.
为揭示中、低纬度高寒山区降雨-径流的形成过程,指导水资源的合理开发利用,选择黑河上游红泥沟小流域为研究区,基于河道径流量及雨水和河水稳定同位素的观测数据,构建二元混合模型,计算了2013年7月23日及8月21日两次典型降雨-径流事件中事件水(降雨)和事件前水(流域前期储水)对河道径流的贡献及其动态变化.结果显示:两次降雨事件中事件前水的贡献比例分别为68.69%和54.46%;事件前水的贡献比例在涨水阶段减小,在退水阶段增大.结合河水电导率的观测结果,进一步分析了降雨-径流的形成过程:河道径流的形成主要受饱和区蓄满产流、河岸带地下径流和山坡地下径流3种产流机制控制;事件水主要源于蓄满产流,事件前水主要源于河岸带和山坡地下径流;事件初期和末期以河岸带地下水补给为主,涨水阶段后期和退水阶段前期转为以蓄满产流和山坡地下水补给为主,洪峰期间蓄满产流的贡献达到最大.两次事件的对比表明,事件前的湿度条件和降雨强度对降雨-径流的形成过程有着重要影响:前期越湿润,流域储水能力越弱,导水能力越强,事件水的贡献越大,河道径流对降雨的响应越迅速;降雨强度越大,蓄满产流及其中的事件水比例越高,河道径流中事件水的比例也越高. 相似文献
3.
当前分布式水文模型的参数确定仍主要依赖率定方式, 在缺资料地区应用受到限制。建立一种基于变动饱和带产流模式和网格水滴汇流方法的分布式产汇流模型, 提出利用下垫面特征来确定模型参数的方法。结合野外入渗试验和参数敏感性分析, 建立地表饱和水力传导度(K0z)和饱和水力传导度随深度衰减系数(f)2个敏感性产流参数与地形参数、土壤类型数据的定量统计关系, 利用野外坡面流观测试验确定坡面汇流参数, 并在多个实际流域进行应用验证。结果表明: ①利用地形参数确定K0z与使用遥感资料确定K0z的模型精度进行对比, 在姜湾实验流域场次洪水模拟的平均确定性系数从0.82提高至0.86, 洪峰与洪量误差的平均绝对值分别降低了2.2%和0.95%, 但峰现时间误差平均绝对值增大了4%(仍控制在2 h内)。②建立姜湾等14个流域参数f率定值与不同深度土壤类型数据的定量关系, 移用至七邻等6个流域进行验证, 表明参数f关系式与模型率定的精度非常接近, 相对误差的平均绝对值为2.8%, 场次洪水模拟的平均确定性系数为0.83, 洪峰与洪量误差的平均绝对值为10.07%和6.86%, 峰现时间误差的平均绝对值为2.61 h。提出的敏感性产流参数确定方法与野外实测、模型率定、遥感资料推求等方式进行对比, 均具有较高的参数估计精度和场次洪水模拟精度, 在缺资料地区具有适用性。 相似文献
4.
利用人工模拟植被试验,系统研究了6个坡度和10个流量、5种覆盖度条件下坡面流水力参数水力要素关系及阻力的变化特征,以期揭示坡面植被水流阻力的内在规律性.结果表明:流态指数随植被覆盖度的增加而显著增加,相同植被覆盖度下,试验坡度对其影响并不显著.各试验工况下,水流流态主要分布在"虚拟层流区"和过渡流区,未达到紊流区.随试验坡度的增加,水流流态由缓流向急流区域延伸,而随覆盖度的增加,流态向相反方向延伸.植被覆盖条件下坡面水流阻力与雷诺数的变化规律并非呈单调增加或者单调递减的趋势,而与植被覆盖度紧密相关,当植被覆盖度较低时,阻力系数随雷诺数的增加而减小,而覆盖度较高时,阻力系数随雷诺数增加呈线性增加的趋势. 相似文献
5.
Every year, and in many countries worldwide, wildfires cause significant damage and economic losses due to both the direct
effects of the fires and the subsequent accelerated runoff, erosion, and debris flow. Wildfires can have profound effects
on the hydrologic response of watersheds by changing the infiltration characteristics and erodibility of the soil, which leads
to decreased rainfall infiltration, significantly increased overland flow and runoff in channels, and movement of soil. Debris-flow
activity is among the most destructive consequences of these changes, often causing extensive damage to human infrastructure.
Data from the Mediterranean area and Western United States of America help identify the primary processes that result in debris
flows in recently burned areas. Two primary processes for the initiation of fire-related debris flows have been so far identified:
(1) runoff-dominated erosion by surface overland flow; and (2) infiltration-triggered failure and mobilization of a discrete
landslide mass. The first process is frequently documented immediately post-fire and leads to the generation of debris flows
through progressive bulking of storm runoff with sediment eroded from the hillslopes and channels. As sediment is incorporated
into water, runoff can convert to debris flow. The conversion to debris flow may be observed at a position within a drainage
network that appears to be controlled by threshold values of upslope contributing area and its gradient. At these locations,
sufficient eroded material has been incorporated, relative to the volume of contributing surface runoff, to generate debris
flows. Debris flows have also been generated from burned basins in response to increased runoff by water cascading over a
steep, bedrock cliff, and incorporating material from readily erodible colluvium or channel bed. Post-fire debris flows have
also been generated by infiltration-triggered landslide failures which then mobilize into debris flows. However, only 12%
of documented cases exhibited this process. When they do occur, the landslide failures range in thickness from a few tens
of centimeters to more than 6 m, and generally involve the soil and colluvium-mantled hillslopes. Surficial landslide failures
in burned areas most frequently occur in response to prolonged periods of storm rainfall, or prolonged rainfall in combination
with rapid snowmelt or rain-on-snow events. 相似文献
6.
7.
对当前坡面汇流计算方法的研究进展进行了较为系统的总结与分析,并对坡面汇流的非线性效应以及城市低影响开发中的雨水入渗与蓄集对坡面汇流的控制作用进行了简要分析。从模型简单实用的角度出发,认为以流域时间-面积关系与线性水库相串联的ModClark法等为代表的概念性分布式坡面汇流模型具有良好的发展前景;考虑到基于等流时单元的变动等流时线法在反映雨强非线性影响中存在的问题,认为根据水文响应单元在不同雨强条件下汇流时间的变化,调整其汇流参数以反映坡面汇流的非线性效应,对于流域坡面汇流的分布式模拟更具有实际意义;针对目前低影响开发设施长时间序列大空间尺度的室外降雨径流监测资料普遍较为缺乏的现状,给出了后期应积极选择合适的技术以加强低影响开发性能监测工作的建议。 相似文献
8.
Studies on rain-runoff process in the peripheral mountainous area of the Sichuan Basin, which is regarded as a key ecological shelter, will contribute to flood control and environmental protection for the Upper Yangtze River Basin. In two typical catchments--the Fujiang River Catchment and the Wujiang River Catchment, rainfall simulations have been conducted to study the rain-runoff processes of yellow soil and limestone soil in three types of land use--forestland, farmland and grassland. Results showed that (1) within the same rainfall process, overland flow occurs first on farmland, then on grassland, and finally on forestland; (2) soil surface coverage has a great impact on the occurrence and amount of overland flow. The runoff amount can increase 2-4 times after the coverage is removed; (3) the infiltration before the occurrence of overland flow will decrease because of higher gravel contents of soil, but it takes no effect on infiltration once overland flow becomes stable; (4) the runoff coefficient of the limestone soil forestland is greater than that of the yellow soil forest land, but less than that of the farmland; (5) three empirical infiltration models, including Horton' model, Kostiakov' model, and modified Kostiakov' model, were compared by using the observed results under rainfall simulation. The results showed that the Kostiakov' model performed better than both the Horton' model and modified Kostiakov model. According to the results of this research, the Kostiakov's model can be used to simulate rainfall infiltration when water erosion is modeled in the peripheral mountainous area of the Sichuan Basin. 相似文献
9.
A coupled surface/subsurface flow model accounting for air entrapment and air pressure counterflow 总被引:1,自引:1,他引:0
Jens-Olaf Delfs Wenqing Wang Thomas Kalbacher Ashok Kumar Singh Olaf Kolditz 《Environmental Earth Sciences》2013,69(2):395-414
This work introduces the soil air system into integrated hydrology by simulating the flow processes and interactions of surface runoff, soil moisture and air in the shallow subsurface. The numerical model is formulated as a coupled system of partial differential equations for hydrostatic (diffusive wave) shallow flow and two-phase flow in a porous medium. The simultaneous mass transfer between the soil, overland, and atmosphere compartments is achieved by upgrading a fully established leakance concept for overland-soil liquid exchange to an air exchange flux between soil and atmosphere. In a new algorithm, leakances operate as a valve for gas pressure in a liquid-covered porous medium facilitating the simulation of air out-break events through the land surface. General criteria are stated to guarantee stability in a sequential iterative coupling algorithm and, in addition, for leakances to control the mass exchange between compartments. A benchmark test, which is based on a classic experimental data set on infiltration excess (Horton) overland flow, identified a feedback mechanism between surface runoff and soil air pressures. Our study suggests that air compression in soils amplifies surface runoff during high precipitation at specific sites, particularly in near-stream areas. 相似文献
10.
Studies on rain.runoff process in the peripheral mountainous area of the Sichuan Basin,which is re-garded as a key ecological shelter,will contribute to flood control and environmental protection for the Upper Yang-tze River Basin.In two typical catchments--the Fujiang River Catchment and the Wujiang River Catchment,rainfall simulations have been conducted to study the rain-runoff processes of yellow soil and limestone soil in three types of land use-forestland.farmland and grassland.Results showed that(1)within the same rainfall process,overland flow occurs first on farmland,then on grassland,and finally on forestland;(2)soil surface coverage has a great im-pact on the occurrence and amount of overland flow.The runoff amount Can increase 2-4 times after the coverage iS removed;(3)the infiltration before the occurrence of overland flow will decrease because of higher gravel contents of soil.but it takes no effect on infiltration once,overland flow becomes stable;(4)the runoff coefficient of the lime-stone soil forestland iS greater than that of the yellow soil forest land,but less than that of the farmland;(5)threeempirical infiltration models,including Horton'model,Kostiakov'model,and modified Kostiakov'model,were compared by using the observed results under rainfall simulation.The results showed that the Kostiakov'model per-formed better than both the Horton'model and modified Kostiakov model.According to the results of this research,the Kostiakov's model Can be used to simulate rainfall infiltration when water erosion is modeled in the peripheral mountainous area of the Sichuan Basin. 相似文献
11.
Alexander Yakirevich Avraham Dody Eilon M. Adar Viacheslav Borisov Mebus Geyh 《Hydrogeology Journal》1998,6(1):50-65
Temporal distributions of the isotopic composition in arid rain storms and in the associated runoff were investigated in
a small arid rocky basin in Israel. Customized rain and runoff samplers provided sequential water samples hermetically sealed
in high-density PVC bags. In several storms where the runoff was isotopically depleted, compared with the rainfall, the difference
could not be explained by fractionation effects occurring during overland flow. A water-balance study relating the runoff
discharge to rainfall over a rocky watershed showed that the entire discharge is produced by a very small segment (1–2 mm)
of the rain storm. The major objective, therefore, was to provide quantitative relations between segments of rainfall (rain
showers and rain spells) and runoff. The time distribution of the composition of stable isotopes (oxygen and hydrogen) was
used to quantify the correlation between the rain spell's amount and the consequent runoff. The aim of this work was to (a)
utilize the dynamic variations in the isotopic composition in rainfall and runoff and model the magnitude of surface-storage
capacity associated with runoff processes of overland flow, and (b) characterize the isotopic composition of the percolating
water with respect to the isotopic distribution in rainfall and runoff events. The conceptual model postulates an isotopic
mixing of overland flow with water within the depression storage. A transport model was then formulated in order to estimate
the physical watershed parameters that control the development of overland flow from a certain rainfall period. Part I (this
paper) presents the results and the assessment of the relative depression storage obtained from oxygen-18 and deuterium analyses
that lead to the physical and mathematical formulation of a double-component model of kinematic-wave flow and transport, which
is presented in Part II (accompanying paper).
Received, February 1997 · Revised, September 1997 · Accepted, September 1997 相似文献
12.
The role of heterogeneity and uncertainty in hydraulic conductivity on hillslope runoff production was evaluated using the fully integrated hydrologic model ParFlow. Simulations were generated using idealized high-resolution hillslopes configured both with a deep water table and a water table equal to the outlet to isolate surface and subsurface flow, respectively. Heterogeneous, correlated random fields were used to create spatial variability in the hydraulic conductivity. Ensembles, generated by multiple realizations of hydraulic conductivity, were used to evaluate how this uncertainty propagates to runoff. Ensemble averages were used to determine the effective runoff for a given hillslope as a function of rainfall rate and degree of subsurface heterogeneity. Cases where the water table is initialized at the outlet show runoff behavior with little sensitivity to variance in hydraulic conductivity. A technique is presented that explicitly interrogates individual realizations at every simulation timestep to partition overland and subsurface flow contributions. This hydrograph separation technique shows that the degree of heterogeneity can play a role in determining proportions of surface and subsurface flow, even when effective hillslope outflow is seen. This method is also used to evaluate current hydrograph separation techniques and demonstrates that recursive filters can accurately proportion overland and base-flow for certain cases. 相似文献
13.
从导致土壤侵蚀的降雨和径流能量出发,提出了基于物理学原理的降雨能和径流能的概念,并采用人工模拟降雨实验,分析了泥沙输移与降雨和径流能的关系,结果显示:坡面薄层径流泥沙剥蚀量随着地表坡度、降雨能和径流能的增加而增加,雨滴击溅作用下泥沙剥蚀量远远大于无雨滴击溅作用时泥沙剥蚀量;薄层水流泥沙浓度随着坡度和降雨能的增加而增加,当坡度和降雨能一定时,泥沙浓度随着径流能的增加而减小;降雨扰动系数与降雨和径流能的比值按照对数关系增长,在相同坡度下,当降雨能一定时,降雨扰动系数随着径流能的增加而减小,当径流能一定时,降雨扰动系数随着降雨能的增加而增加。降雨能是导致泥沙剥离的本质,径流能是泥沙搬运的动力。 相似文献
14.
In present study, a distributed physics based hydrological model, MIKE SHE coupled with MIKE 11, is calibrated using multi-objective approach, i.e., minimization of error in prediction of stream flows and groundwater levels, using the data of eight years from 1991 to 1998 of Yerli sub-catchment \((\hbox {area} = 15{,}881\,\hbox {km}^{2})\) of upper Tapi basin in India. The sensitivity analyses of thirteen model parameters related with overland flow, unsaturated and saturated zones have been undertaken while simulating the runoff volume, peak runoff at catchment outlet and groundwater levels within the catchment with wide variations \((\pm 50\%)\) in the model parameters. The calibrated model has also been validated for prediction of stream flow and groundwater levels within the Yerli sub-catchment for period 1999–2004. The simulated results revealed that calibrated model is able to simulate hydrographs satisfactorily for Yerli sub-catchment (NSE \(=\) 0.65–0.89, \(r=0.80{-}0.95\)) at daily and monthly time scales. The ground water levels are predicted reasonably satisfactorily for the plain area (RMSE \(=\) 0.50–6.50 m) in the study area. The results of total water balance indicated that about 78% of water is lost from the system through evapotranspiration, out of which about 3.5% is contributed from the groundwater zone. 相似文献
15.
Midstream of the Keelung River Basin in Northern Taiwan has become highly urbanized and densely populated area. Flood inundation
along riversides frequently occurred during typhoons or rainstorms. Three protection measures, including constructions of
high-level protection levees, a diversion channel, and a detention reservoir, were proposed for flood mitigation. The main
purpose of this study is to evaluate the flood mitigation performance of the three proposed structural measures by using combined
hydrologic analyses and hydraulic routings. A semi-distributed parallel-type linear reservoirs rainfall-runoff model was used
for estimating the surface runoff. Furthermore, a 1-D dynamic channel routing model was coupled with a two-dimensional inundation
model to simulate the hydraulic characteristics of river flooding and overland flow. Simulation results of flood stages, runoff
peak discharges, and inundation extent under design rainfall scenarios were chosen as the criteria for evaluation. The results
showed a diversion channel is superior to the other two measures for flood mitigation of the study area. After the process
of environmental impact assessment, a revised diversion channel approach has been approved for construction as the major structural
measure. 相似文献
16.
Susan E. Hogg 《Earth》1982,18(1):59-76
Following McGee's (1897) use of the term sheetflood, there developed a variety of conflicting opinions and numerous terminologies relating to this process, many of which are ill-considered and poorly defined. A classification system is devised on both a hydrologic and geomorphic basis which dispenses with many superfluous terms that have been used with respect to sheetfloods. Magnitude of a storm is expressed in terms of the amount of surface runoff generated from a given storm due to the surface conditions.A sheetflood is defined as a sheet of unconfined flood water moving down a slope. The frequency of a sheetflood is relatively low while its magnitude is relatively great. Sheetflow is defined as relatively high-frequency, low-magnitude overland flow occurring in a continuous sheet and is restricted to laminar flow conditions. Sheetwash, a term of geomorphic origin, is considered to be redundant and is superseded by the more meaningful term rainwash defined as the washing action of rain on slopes. 相似文献
17.
利用水化学方法识别岩溶水文系统中的径流 总被引:2,自引:0,他引:2
通过暴雨中的野外观测,确认了桂林丫吉试验场S31泉岩溶水文系统中多种径流形式:表层岩溶带管道流、回归流、坡面流和壤中流。现场测量发现不同形式径流的水化学特征(pH、电导率、Ca2+、HCO-3)存在差异,Ca2+的质量浓度相差最大可以达到3倍。从CaCO3-H2O-CO2平衡体系来看,CO2分压(pCO2)对径流的水化学特征具有控制作用。在大气pCO2影响下的岩溶水矿化度较低,而土壤空气pCO2达到2.7%,是大气的近百倍,其影响的径流矿化度较高。鉴于大气中和土壤中pCO2的显著差异,从水化学特征上将径流分为2类,并且认为它们构成了系统出口洪水的2个主要来源。在此基础上利用水化学方法计算出S31岩溶泉洪水时的径流构成。结果表明,在暴雨的情形,由大气pCO2环境产生形成的岩溶水的比例占到泉水总量的70%,进一步证明了快速流在岩溶水中的重要作用。 相似文献
18.
建立了适用于栅格单元系统的基于运动波理论的降尺度新安江模型(KWXAJ)。在栅格单元中采用新安江模型计算产流,运动波模型进行坡面汇流演算。模型中,为考虑上游坡地单元入流的径流入渗(run-on)效应,在进行坡地产流计算时,降雨及上游坡面流及壤中出流被同时作为来水输入新安江模型。在运动波模型中,糙率系数依据土地利用方式及洪水量级确定。选取淮河史灌河流域黄泥庄以上集水区域,作为研究区域。用流域历史上的13次洪水过程来率定和验证此模型。研究表明,run-on机制对流域产汇流预测有重要影响,其显著影响流域内土壤蓄水量时空分布,进而改变产汇流机制。数据分析还显示,不考虑run-on机制将导致模拟洪峰滞后。 相似文献
19.
用BATS模型模拟径流的个例研究 总被引:3,自引:0,他引:3
为了解陆气间水热交换在径表成中的作用,本文采用BATS模型模拟了淮河流域山区和平原在1991年汛期50天的暴雨洪水过程,计算了径流,土壤温度和感热,通量,并用常规的汇流计算方法得到了流域出口断量过程线。 相似文献
20.
为探明降雨条件下沙黄土坡面水流水动力学特性,以流体力学和泥沙运动力学理论为依据,通过5个坡度和5个雨强组合条件下室内模拟降雨试验,系统研究了坡面水流水力参数的变化规律。结果表明,降雨条件下坡面薄层水流雷诺数均小于580,处于层流失稳区;水流流型随雨强和坡度的变化而发生转捩,当坡度较缓、雨强较小时,床面形态处于低能态区和过渡区,床面出现沙纹现象,水流宏观上呈缓流,反之,坡度较陡、雨强较大时,床面由沙纹和沙垄向动平床过渡,宏观上多呈急流;并根据薄层水流阻力组成特点,推导出沙黄土坡面薄层水流阻力计算公式。验证结果表明,该式误差较小,可为坡面侵蚀预报模型的构建提供参考。 相似文献