基于突变理论的黄河下游游荡性河道演变稳定性分析OA
Stability analysis on channel evolution of a braided reach in the Lower Yellow River based on cusp catastrophe theory
黄河下游游荡段河势演变具有突发性和随机性的特点,研究其稳定性变化及主控因素对于解决河势游荡和防洪等问题具有重要意义.基于尖点突变理论,选取深泓摆动强度与水流冲刷强度为控制变量,对小浪底水库运行前后典型游荡河段河势稳定性进行量化分析.结果表明:1992-2020年河势稳定性呈增强趋势,2006年之前河势长期处于不稳定状态,2006年以后在调水调沙作用下明显转为稳定状态,体现了小浪底运行后水沙条件变化对提升河道稳定性的显著作用;稳定性系数与平均冲刷强度呈显著正相关,与深泓摆动强度呈负相关,其中来水来沙条件是主控因素;水库运行后平均冲刷强度持续增大,深泓摆动宽度与强度显著减小,河道游荡程度显著降低;汛期含沙量为河势稳定性的关键影响因子,含沙量越高,冲刷强度越小,深泓摆动强度越大,河势稳定性越低.本研究揭示了水沙条件变化驱动下游荡性河道演变的稳定性变化机制,可为黄河下游水沙调控与系统治理提供理论支撑.
This study focuses on the braided reach of the Lower Yellow River(LYR),which features abrupt and random river regime evolution.Studying such river regime stability variations and dominant controlling factors is crucial for addressing challenges such as channel braiding and flood control.Using the cusp catastrophe theory,this study takes thalweg migration intensity and flow scouring intensity as control variables to quantitatively analyze river regime stability in a typical braided reach before and after the operation of the Xiaolangdi Reservoir.The results show that river regime stability exhibited an overall increasing trend from 1992 to 2020.Before 2006,the river regime had been in a persistently unstable state,whereas after 2006,it shifted markedly to a stable state under water-sediment regulation,demonstrating the remarkable effect of altered water-sediment regimes on enhancing channel stability following the operation of the Xiaolangdi Reservoir.It was also found that the stability coefficient was significantly positively correlated with average scouring intensity and negatively correlated with thalweg migration intensity,where the discharge and sediment conditions constituted the dominant controlling factors.The results also indicate that after reservoir operation,average scouring intensity continuously increased,while thalweg migration width and intensity decreased significantly,leading to a substantial reduction in channel braiding.In addition,sediment concentration in flood seasons was the key factor affecting river regime stability as higher sediment concentration led to lower scouring intensity,greater thalweg migration intensity,and thus decreased river regime stability.Based on these findings,this study reveals the mechanism of stability variations in braided channel evolution driven by water-sediment regime changes,and provides theoretical support for water-sediment regulation and systematic governance of the LYR.
曹智伟;宗虎城;李坤;樊金生;陆永军;肖洋;刘怀湘
黄河勘测规划设计研究院有限公司,河南郑州 450003||水利部黄河流域水治理与水安全重点实验室,河南郑州 450003黄河勘测规划设计研究院有限公司,河南郑州 450003||水利部黄河流域水治理与水安全重点实验室,河南郑州 450003黄河勘测规划设计研究院有限公司,河南郑州 450003||河海大学水利部水循环与水动力系统重点实验室,江苏南京 210098周口师范学院,河南周口 466001南京水利科学研究院水灾害防御全国重点实验室,江苏南京 210029河海大学水利部水循环与水动力系统重点实验室,江苏南京 210098||苏州科技大学环境科学与工程学院,江苏苏州 215009南京水利科学研究院水灾害防御全国重点实验室,江苏南京 210029
建筑与水利
河道稳定性游荡性河道尖点突变理论黄河下游
channel stabilitybraided channelcusp catastrophe theorythe Lower Yellow River
《水科学进展》 2026 (3)
528-539,12
国家重点研发计划项目(2023YFC3208601)国家自然科学基金项目(U2443220) The study is financially supported by the National Key R&D Program of China(No.2023YFC3208601)and the National Natural Science Foundation of China(No.U2443220).
评论