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1.
黄河下游河道断面形态参数变化及其水沙过程响应 总被引:1,自引:0,他引:1
基于1965—2015年黄河下游花园口、高村、泺口站的逐年水文和汛前河道断面的实测资料,分析了河道断面形态参数(河道断面面积,河道宽深比等)的变化,以及对河道断面形态与来水来沙间的关系做出定量化分析。结果表明:主槽断面形态参数与水沙搭配以及前期断面形态密切相关,沿程3个断面形态参数调整方式存在显著差异。河宽调整幅度沿程减小,辫状河段变幅最大,尤其在1986—1999年,辫状河段萎缩程度最为严重,其次为弯曲河段,顺直河段横向调整幅度最小。受到前期断面形态的影响,辫状河段河道断面调整方式既有横向展宽(萎缩)又有垂直加深(淤积);弯曲河段河道宽深比与流量呈较弱的正相关关系,具有横向和垂向的调整方式;而顺直河段的宽深比与流量呈负相关关系,与来沙系数呈正相关关系,河道以垂直加深(淤积)为主。 相似文献
2.
受风沙入黄影响,黄河沙漠宽谷段河流地貌过程复杂,河道深泓摆动响应敏感。以1966—2019年黄河乌兰布和沙漠段河道断面为基础,提取深泓摆动参数,分析沙漠河流深泓横向摆动特征与规律,以期为沙漠河流管理提供参考。结果表明:河道深泓横向摆动强度与径流量及其年内分配不均匀系数、河床质粒度和河岸风沙动力条件呈现显著正相关;1966—2019年,河道深泓横向摆动幅度以每年8.24 m的速度下降,且波动幅度明显减小。河道深泓摆动过程中存在19 a和7 a时间尺度下的周期变化规律,摆动周期分别为13 a和5 a,且周期性不断减弱。深泓摆动速度与周期变化趋势指示沙漠宽谷辫状河道横向冲淤趋于稳定。 相似文献
3.
三门峡水库影响渭河下游河道横向演变的研究 总被引:2,自引:0,他引:2
多沙河流修建水库影响库区河道演变,建库前后河道遵循不同的演变规律,兴建三门峡水库后的15年间赤水河河口至陈村河段发生了7次自然裁弯,三门峡水库改建后20年间却没有发生一次自然裁弯,这是一个非常有趣的现象。文中利用渭河下游河道的实测资料,对比兴建三门峡水库前后以及三门峡改建前后渭河下游河道的横向演变,得到如下几点认识:(1)侵蚀基准面的变化是引起渭河下游河道横向摆动的主要因素;(2)洪水比降变平,相应河道弯曲系数变大,河道由稳定型向摆动型发展;洪水比降变陡,相应河道弯曲系数变小,河道由摆动型向稳定型发展;(3)滩地的泥沙组成代表河岸的可动性。河岸可动性增大,河道由稳定型向摆动型发展,河岸可动性变小,河道由摆动型向稳定型发展;(4)河道断面形态的调整是对基准面变化和来水来沙变化的复杂响应过程;(5)来水来沙影响渭河下游河道横向演变。 相似文献
4.
黄河下游清水冲刷阶段河床的调整及其对基准面变化的反应 总被引:1,自引:1,他引:0
本文采用黄河下游的实测资料,分析了三门峡水库下洩清水阶段,河床的调整及其对基准面的反应。认为在来水来沙条件变化的情况下,河床纵剖面以近于平行的方式调整;横断面形态向窄深式发展;河型的转化主要取决于地貌临界值和粉沙—粘土含量。从长时间看,下游的淤积特性不会发生根本性的变化。 相似文献
5.
根据黄河下游7个控制断面的深泓高程、平均河底高程、滩槽高差及过水断面面积的历年变化,可以看出黄河下游河道的萎缩过程,大型水利工程的运用及引黄灌溉加速了下游河道的淤积和萎缩。 相似文献
6.
研究黄河和滹沱河对季节河化的适应性调整,发现季节化程度较高的滹沱河下游床断面和平面形态调整幅度不大,而河床的糙率成倍增加造成下游的小水大灾现象;黄河下游近年流量减小,不断断流,主槽淤积,虽然河槽断面形态在游荡段变得更窄深,但主槽明显变小、变窄、变高,构成下游近年出现的小水大灾现象的主要原因。 相似文献
7.
为了揭示滇西纵向岭谷区河谷形态特征及其发育规律,采用1∶5万DEM图件,利用ARCG IS软件提取研究区41个河谷断面的有关基础数据,据此计算了河谷横断面的宽深比、半高宽深比、断面面积、凹度、不对称系数及河谷纵剖面特征的指标。结果表明,纵向岭谷区北部河谷横断面的宽深比很小,其宽深比在4~16间,但沿流向往南有明显增大的趋势,最大达到24。这是由于北部的构造抬升作用强从而引起该区更强列的河流下蚀作用的结果。河谷横断面的凹度显示大多数河谷属于"V"型谷,表明研究区的河流仍然以下切过程为主。谷宽不对称系数及谷面不对称系数揭示了研究区河谷横断面主要是左倾型河谷,即河谷断面上河道左部谷坡较缓,这是强势西南季风在河流左岸迎风坡形成强降水带和在河流右岸背风坡形成弱降水带的雨水差异侵蚀引起的。河谷纵剖面具有明显的下凹特性,凹度在1.40~1.65间。河道比降具有沿程变小的趋势,并遵循指数衰减关系,平均比降在1.22‰~1.85‰间。在纵向岭谷区北部,响应构造抬升作用的西强东弱的现状,河流主河道的比降具有从西向东变小的趋势。 相似文献
8.
研究黄河和滹沱河对季节河化的适应性调整,发现季节化程度较高的滹沱河下游河床断面和平面形态调整幅度不大,而河床的糙率成倍增加造成下游的小水大灾现象;黄河下游近年流量减小,不断断流,主槽淤积,虽然河槽断面形态在游荡段变得更窄深,但主槽明显变小、变窄、变高,构成下游近年出现的小水大灾现象的主要原因。 相似文献
9.
近50年黄河乌兰布和沙漠段辫状河道演变 总被引:4,自引:3,他引:1
依据水沙资料和断面资料,对黄河乌兰布和沙漠段辫状河道形态近50年演变特征及趋势进行探讨分析。结果表明:在大流量条件下(1966-1993年),河流横向侵蚀、搬运堆积过程强烈,风沙入黄(河)量大,河道横向摆动频繁,辫状河道发育强烈。当黄河流量减小时(1993-2013年),河流横向摆动能力减弱,黄河主河槽远离左岸乌兰布和沙漠沙丘,河流输沙能力减弱,汊道泥沙淤积导致心滩边滩相连,河流分汊数量明显减少,辫状河道萎缩,黄河乌兰布和沙漠段辫状河型有向弯曲型河道转变的趋势。 相似文献
10.
山地河流的河相关系及其变化趋势——以怒江、澜沧江和金沙云南河段为例 总被引:1,自引:0,他引:1
河相关系理论迄今总是应用于冲积河流的研究中并取得了很好的效果,但尚未应用在非冲积性山地河流的研究中.河相关系理论是否适用于非冲积性河流的研究?该研究选取滇西山地河流,以怒江道街坝、澜沧江旧州和景洪、以及金沙江石鼓4个水文站的历年实测水文资料为基础,探讨了上述4站有水文资料记载时段的历年及多年的流量~河宽、流量~水深、流量~流速关系,揭示其年际变化特征.结果显示,河相关系理论在研究非冲积性河流当中同样存在很好的效果,表明山地非冲积性河流与冲积河流在河道演变中遵循类似的规律.研究区北段从西部的怒江到中部的澜沧江,再到东部的金沙江,其河相关系的年际变化幅度逐渐减小,与它们受到构造抬升的影响减弱相适应.澜沧江河相关系的年际变化在北部相对不明显,在南部则相对显著,这与其南北两段的地貌分异有关,也与中下游的大坝建设等人类活动引起南部河床的冲淤强度的增大有关.系数积及指数和表明,山地河流由于受到基岩边界的影响,其流水断面的调整中河宽、水深和流速之间的协调能力比冲积性河流的小.另外,建立了流水断面宽深比与流量之间的河相关系式,丰富了河相关系的研究内容,并在研究区不同河流、不同河段的流量预测或断面形态预测中具有重要的意义. 相似文献
11.
赣江入湖三角洲上的网状河流体系研究 总被引:6,自引:0,他引:6
中国南方的冲积河流有许多属于分汊河流,这已被许多研究者进行过比较深入的分析研究,但赣江在其入湖三角洲上的多河道体系与分汊河道有着明显的不同,它的形成是河流自发调整的结果,而不象分汊河流那样由节点控制。它具有网状河流所具有的地貌和沉积物特征,属于典型的网状河流体系。虽然是低含沙河流,但由于其水动力较弱及汛期基准面的上升,洪泛频繁,可输入河间地以大量的泥沙并在低能环境中发生沉积,使河道及河间地能够协调加积升高,并维持多河道体系的稳定性。 相似文献
12.
Fluvial processes of the downstream reaches of the reservoirs in the Lower Yellow River 总被引:1,自引:0,他引:1
Evolution of the river channel downstream of reservoirs is a complex process that is closely related to the operational mode of the reservoirs and the channel boundary conditions. Numerous studies have been carried out on the fluvial processes of downstream reservoirs. However, only a few of them have focused on the relationship between runoff-sediment conditions and channel pattern indicators. Also, the impacts of river training works on fluvial processes are seldom dealt with. In this paper, the evolutionary processes of three sections in the Lower Yellow River, including Tiexie-Yiluo River mouth reach, Huayuankou-Heigangkou reach and Jiahetan-Gaocun reach, were analyzed for variations in the channel boundary line and the mainstream between 1960 and 2015. Channel pattern indicators such as sinuosity, mainstream wandering range and width/depth ratio were analyzed based on field measurements obtained by the Hydrological Department of the Yellow River Conservancy Commission. The effects of river training works on the channel evolution are then described. Since 1960, numerous medium- and large-sized reservoirs have been built on the Yellow River, including Longyangxia Reservoir, Liujiaxia Reservoir and Xiaolangdi Reservoir. These reservoirs impound the runoff from upstream and retain the sediment, which changes the runoff and sediment conditions in the downstream reach. As a consequence, annual runoff and the frequency and peak of flooding have all decreased. As a result, the flow dynamics and their action on the river channel are also reduced, which changes the dynamic state of the river course. The discrimination results obtained using the single parameter discrimination rule and the discrimination equation show that the degree of wandering is weakened in the reaches studied. The variations in the channel pattern indicators show that the sinuosity increases and the wandering range decreases with a reduction in the total annual volume of water. However, the degree of wandering has little relationship to the sediment concentration. In addition, river training works play an important role in controlling the river course. Due to improvements in the river training works, the river course has become more stable under the same runoff and sediment conditions. A new discrimination rule that takes into account the impacts of the river training works is proposed. The discrimination results were found to fit well with the actual river pattern, which shows that the discrimination rule is applicable to the Lower Yellow River. The results show that the runoff and sediment conditions are the most important factors in the evolution of the river course. The river training works have at the same time limited the wandering range of the mainstream and played an important role in the fluvial processes. Both factors combined lead to the stabilization of the river. 相似文献
13.
《地理学报(英文版)》2016,(9)
Evolution of the river channel downstream of reservoirs is a complex process that is closely related to the operational mode of the reservoirs and the channel boundary conditions. Numerous studies have been carried out on the fluvial processes of downstream reservoirs. However, only a few of them have focused on the relationship between runoff-sediment conditions and channel pattern indicators. Also, the impacts of river training works on fluvial processes are seldom dealt with. In this paper, the evolutionary processes of three sections in the Lower Yellow River, including Tiexie-Yiluo River mouth reach, Huayuankou-Heigangkou reach and Jiahetan-Gaocun reach, were analyzed for variations in the channel boundary line and the mainstream between 1960 and 2015. Channel pattern indicators such as sinuosity, mainstream wandering range and width/depth ratio were analyzed based on field measurements obtained by the Hydrological Department of the Yellow River Conservancy Commission. The effects of river training works on the channel evolution are then described. Since 1960, numerous medium- and large-sized reservoirs have been built on the Yellow River, including Longyangxia Reservoir, Liujiaxia Reservoir and Xiaolangdi Reservoir. These reservoirs impound the runoff from upstream and retain the sediment, which changes the runoff and sediment conditions in the downstream reach. As a consequence, annual runoff and the frequency and peak of flooding have all decreased. As a result, the flow dynamics and their action on the river channel are also reduced, which changes the dynamic state of the river course. The discrimination results obtained using the single parameter discrimination rule and the discrimination equation show that the degree of wandering is weakened in the reaches studied. The variations in the channel pattern indicators show that the sinuosity increases and the wandering range decreases with a reduction in the total annual volume of water. However, the degree of wandering has little relationship to the sediment concentration. In addition, river training works play an important role in controlling the river course. Due to improvements in the river training works, the river course has become more stable under the same runoff and sediment conditions. A new discrimination rule that takes into account the impacts of the river training works is proposed. The discrimination results were found to fit well with the actual river pattern, which shows that the discrimination rule is applicable to the Lower Yellow River. The results show that the runoff and sediment conditions are the most important factors in the evolution of the river course. The river training works have at the same time limited the wandering range of the mainstream and played an important role in the fluvial processes. Both factors combined lead to the stabilization of the river. 相似文献
14.
15.
Catchment-scale (dis)connectivity in sediment flux in the upper Hunter catchment, New South Wales, Australia 总被引:3,自引:1,他引:3
(Dis)connectivity within and between landscape compartments affects the extent and rate of transfer of energy and matter through catchments. Various landforms may impede sediment conveyance in a river system, whether laterally to the channel (termed buffers) or longitudinally along the channel itself (termed barriers). A generic approach to analysis of landscape (dis)connectivity using slope threshold analysis in GIS, tied to air photograph interpretation and field mapping of buffers and barriers, is tested in the upper Hunter catchment, Australia. Under simulated conditions, effective catchment area, which is a measure of the proportion of a catchment that has the potential to contribute sediment to the channel network, varies from 73% to just 3% of the total catchment area for differing subcatchments in the upper Hunter. This variability can be explained by the spatial distribution and assemblage of buffers and barriers in each subcatchment. Multiple forms of disconnectivity are evident in some subcatchments, such that when one buffer or barrier is breached, other features still impede sediment transfer within the system. The importance of the position of buffers and barriers within any given subcatchment is emphasised. Spatial variability in valley width exerts a critical control on catchment connectivity, with more efficient sediment conveyance in narrow valleys relative to wider valleys characterised by piedmonts, terraces, fans and extensive floodplains in which conveyance is impeded. This variability reflects the landscape history and geological setting of each subcatchment. The framework developed in this paper can be used to assess the impact of natural or human-induced buffers and barriers on catchment-scale sediment flux in any landscape setting, providing a physical template atop which other biogeochemical fluxes could be examined. 相似文献
16.
山区河流准三维水沙输运与河床演变模拟 总被引:1,自引:0,他引:1
在渠道水力学和河流动力学研究的基础上,对不规则河流形态下的纵向流速分布和弯道水流进行了讨论,并分析了任意断面和垂线位置的流场计算公式。在综合各种泥沙动力学研究成果基础之上,探讨了在天然河流中的悬移质输沙能力与沉积条件,分析了河床质起动的控制性因素及推移质输沙方程。提出了受冲淤影响的河床质粒径组成和动态递推公式。结合这些流场与泥沙计算方法及河床形态调整技术,作者提出一个准三维河流动力学模型。该模型只需要河流几何形状、人流条件以及泥沙级配参数,能够模拟出不规则几何形态的河道断面流速分布及平面流场分布,并且对于弯道水流特征与泥沙输送一沉积特征也能得到较好的表现。该模型是对有关河流演变理论和实验成果的综合应用,为研究山区高含沙水流下的河床变形以及洪水演进提供了强有力的工具。 相似文献
17.
对黄河内蒙古段河道大断面进行了连续4 a的测量,分析了断面泥沙冲淤与形态调整的变化过程;通过对河床形态指标变化与水沙条件的相关分析,揭示了河床调整主要的影响因素。结果显示:近4 a内不存在河槽萎缩的现象,整个河段河道存在总的冲刷降低的趋势,继承了自2004年以来该段河道以深度加大为主,河槽逐渐缓慢扩大的变化方向。整个河段平均从2011年汛后至2014年汛后,全断面冲刷了64 m2,河槽河底降低了0.16 m,河槽断面面积增加了4.4%,平均深度增加了4.9%,河槽宽度只增加了0.88%,河槽宽深比减小了4.8%。河槽冲刷和形态调整主要发生在2011年汛后至2012年汛后期间,与2012年较大的洪峰有关。分析河槽冲淤和断面形态变化与水沙条件的关系,结果显示滩唇高度、河槽过水面积、平均深度及宽深比变率与流量大小关系密切。滩唇高度、河槽过水面积、平均深度随着流量的增大而增加,宽深比随着流量的增大而减小。相反,河床断面面积和主槽宽度的变化与水沙条件的关系不显著。除了滩唇高度与平均含沙量有关外,平均含沙量和来沙系数与河床冲淤以及河槽形态变化之间关系都不显著。揭示出近年来内蒙河道主槽以垂向冲淤为主,并且流量变化控制着河槽冲淤与形态调整过程。 相似文献
18.
Based on measured hydrological data by using ship-mounted Acoustic Doppler Current Profiler (ADCP) instrument, we analyzed
shapes of river cross sections of the middle Yangtze River basin (mainly focusing on Makou and Tianjiazhen river reach). Hydrodynamic
properties of river channels were also discussed. The research results indicate that nonlinear relationships can be identified
between river-width/river-depth ratio (W/D ratio), sizes of cross section and mean flow velocity. Positive relations are detected
between W/D ratio and mean flow velocity when W/D<1; and negative relations are observed when W/D>1. Adverse relationships
can be obtained between W/D ratio and cross-section area. Geomorphologic and geologic survey indicates different components
of river banks in the wider and narrower river reaches respectively. These may be the main driving factors causing unique
hydrological properties of river channels in the middle Yangtze River basin. Narrower river cross sections tend to raise water
level in the upstream river reach near narrower river channel, giving rise to backwater effects. River knots can cause serious
backwater effects, which is harmful for flood mitigation. However river knots will also stabilize river channel and this will
be beneficial for river channel management. The results of this paper may be helpful for flood mitigation and river channel
management in the middle Yangtze River basin.
Foundation: National Natural Science Foundation of China, No.40701015; Key Project of National Natural Science Foundation of China, No.40730635
Author: Zhang Qiang (1974–), Ph.D and Associate Professor, specialized in natural hazards and climatic changes, hydrologic statistics,
floods and fluvial geomorphology. 相似文献
19.
《Basin Research》2018,30(2):249-278
The Turonian‐Coniacian Smoky Hollow Member of the Straight Cliffs Formation in the Kaiparowits basin of southern Utah records a stratigraphic transition from isolated fluvial channel bodies to increasingly amalgamated channel belts capped by the Calico bed, a sheet‐like sand‐gravel unit. Characteristics of the Smoky Hollow Member are consistent with a prograding distributive fluvial system including: up‐section increases in average grain size, bed thickness, channel‐body amalgamation, a fan‐shaped planform morphology and a downstream increase in channel sinuosity. The system prograded to the northeast based on thickness and facies patterns, and palaeocurrent indicators. This basin‐axial sediment‐dispersal trend, which was approximately parallel to the fold‐thrust belt at this latitude, is supported by provenance data including detrital zircons and modal sandstone compositions indicating sediment derivation mainly from the Mogollon Highlands and Cordilleran magmatic arc to the southwest, with episodic input from the more proximal Sevier fold‐thrust belt to the west. Progradation occurred during a eustatic still‐stand, relatively stable climatic conditions, and continuous tectonic subsidence, thus suggesting increased extrabasinal sediment supply as a primary control on basin‐fill. Progradation of the Smoky Hollow Member fluvial system culminated in a ~2–3 My hiatus at the top of the lower Calico bed. Correlation with the Notom delta of the Ferron Sandstone, 80 km northeast in the Henry basin, is proposed on the basis of facies relationships and geochronology. The Calico bed unconformity is linked to regional tectonically driven tilting and erosion observed in both basins. 相似文献