三峡水库蓄水后长江中游断面形态调整模式OA
Adjustment patterns of cross-sectional morphology in the middle reaches of the Yangtze River after the impoundment of the Three Gorges Reservoir
大型水库的修建引起了坝下游的河槽形态调整,现有研究对河槽形态的总体调整特征已有较为系统的认识,但缺乏针对坝下游河道不同河型断面形态调整模式的量化判别标准.本文基于长江中游河道固定断面地形数据,从形心角度研究三峡水库蓄水后长江中游断面形态调整模式及其判别标准.主要结论如下:①时间维度上,断面形心纵坐标(Hy)总体减小,顺直河型形心横坐标(Hx)变幅较小,弯曲河型Hx朝凸岸侧移动,分汊河型Hx朝主汊移动;空间维度上,顺直河型断面形态调整最大处位于下荆江下游和界牌河段,近坝砂卵石河段Hy降幅最小与上荆江河段Hy变化最大,弯曲和分汊河型形心坐标相对变幅最大处均位于荆江河段,并随着距坝里程增加逐渐减小.②基于形心迁移与水流动力轴线摆动的内在关联性,从动力学的角度明确了形心变化能够反映断面调整特征.③引入形心坐标相对变幅,提出整体下切型、平移下切型和平移调整型3种断面形态调整模式及其判别标准,发现顺直河型以整体下切型为主,弯曲河型3种模式皆有,分汊河型多表现为整体下切型和平移下切型.相较以往研究,本判别方法基于定量统计区分了不同河型间的差异,且形心相对变幅可以同时表征断面横向偏移和垂向冲淤的协同变化特征.
The construction of large reservoirs warrants adjustments to the channel morphology downstream of the dam.Existing studies provide a relatively systematic understanding of the overall characteristics of channel adjustment but lack quantitative criteria for distinguishing the adjustment patterns of different cross-sections downstream of the dam.This study investigates the morphological adjustment patterns to the cross-sections of the Middle Yangtze River following the impoundment of the Three Gorges Reservoir and establishes identification criteria based on fixed-section topographic data.Analysis is conducted from the perspective of the cross-sectional centroid.The main conclusions are as follows:① In the temporal dimension,the longitudinal coordinates(Hy)of the cross-sectional centroid generally decreased.The transverse coordinates(Hx)of the centroid in straight river types varied slightly,whereas those in meandering river types shifted toward the convex bank.Meanwhile,in bifurcated river types,Hx shifted toward the main channel.In the spatial dimension,the greatest adjustment to the cross-sectional morphology in straight-river types occurred in the lower reaches of the Lower Jingjiang reach and the Jiepai reach.Hy decreased the least in the gravel-sand river section near the dam,whereas Hy.changed the most significantly in the Upper Jingjiang reach.For both meandering and bifurcated river types,the greatest relative change in centroid coordinates occurred in the Jingjiang reach and gradually decreased with increasing distance from the dam.② Based on the intrinsic relationship between shape center migration and the oscillation of the hydrodynamic axis,it has been clarified from a dynamic perspective that changes in the shape center can reflect the characteristics of cross-sectional adjustment.③ By introducing the relative amplitude of the centroid coordinates,three cross-sectional adjustment patterns—global downward-cutting,translational downward-cutting,and translational adjustment—along with their identification criteria are proposed.Straight-river types primarily exhibit global downward-cutting,meandering-river types display all three patterns,and bifurcated-river types primarily exhibit global downward-cutting and translational downward-cutting.Compared with previous approaches,this method quantitatively distinguishes differences among river types and demonstrates that the relative amplitude of the centroid can capture the coupled variation between lateral cross-sectional displacement and vertical scouring-deposition processes.
章广越;张为;张德毅;陈立;贾朝辉
武汉大学水资源工程与调度全国重点实验室,湖北武汉 430072||中国三峡建工(集团)有限公司,四川成都 610041武汉大学水资源工程与调度全国重点实验室,湖北武汉 430072武汉大学水资源工程与调度全国重点实验室,湖北武汉 430072武汉大学水资源工程与调度全国重点实验室,湖北武汉 430072中国三峡建工(集团)有限公司,四川成都 610041
建筑与水利
断面形态调整水沙变化形心长江中游三峡水库
cross-sectional morphology adjustmenthydro-sediment variationcentroidmiddle reaches of the Yangtze RiverThree Gorges Reservoir
《水科学进展》 2026 (3)
540-551,12
国家自然科学基金项目(U2340217) The study is financially supported by the National Natural Science Foundation of China(No.U2340217).
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