Long-term evolution of meandering channel planforms in response to the mean annual flow and width–depth ratio

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-02-01 DOI:10.1016/j.ijsrc.2023.11.003
Xiaolong Song , Haijue Xu , Yuchuan Bai
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Abstract

A depth-averaged linearized meander evolution model was used to numerically evaluate the spatiotemporal evolution of the meandering channel centerline in the plane at various mean annual flows and width–depth ratios for capturing the overall average trend of the meandering channel planform. This analysis was done to better understand the consistent responses of the river morphology to possible future tectonic and climatic changes. The computational cases included an idealized sine-generated meandering channel with a moderate maximum deflection angle and a typical natural meander for the Jiyun River in China. The study results showed phased development and response characteristics of the meandering channel centerline (to the mean annual flow), along with increases in the specified mean annual width (B)–depth (H) ratio (represented by B/H). First, the spatial meander straightening trend over time weakened during Phase 1 (B/H ≤ 16.5) and gradually changed to a meander developing trend during Phase 2 (16.5 < B/H ≤ 27) with an overall insensitivity to the flow magnitude. Second, starting from the downstream tail during Phase 3 (27 < B/H ≤ 28.9), the symmetric development form along the transverse direction (perpendicular to the mean flow direction) was disrupted, while flow effects were highlighted when the mean annual B/H exceeded 28. Finally, an obvious onset and jump process of the channel sensitivity in response to flow occurred during Phase 4 (28.9 < B/H ≤ 29.5). These event characteristics are very similar to the transition from laminar to turbulent flow in fluid mechanics. This study provides insights for more in-depth exploration of meandering mechanisms and technical support for effective river management.

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年平均流量和宽深比对蜿蜒河道平面形态的长期演变影响
采用深度平均线性化蜿蜒演变模型,对不同年平均流量和宽深比条件下平面内蜿蜒河道中心线的时空演变进行了数值评估,以捕捉蜿蜒河道平面形态的总体平均趋势。进行这项分析是为了更好地了解河流形态对未来可能发生的构造和气候变化的一致反应。计算案例包括一个理想化的正弦生成的最大偏转角适中的蜿蜒河道,以及中国吉运河典型的自然蜿蜒河道。研究结果表明,随着规定的年平均宽度(B)-深度(H)比(用 B/H 表示)的增加,蜿蜒河道中心线(对年平均流量)呈现出分阶段发展和响应特征。首先,在第一阶段(B/H ≤ 16.5),空间蜿蜒随时间的变直趋势减弱,在第二阶段(16.5 < B/H ≤ 27)逐渐转变为蜿蜒发展的趋势,总体上对流量大小不敏感。其次,在第 3 阶段(27 < B/H ≤ 28.9),从下游尾部开始,沿横向(垂直于平均水流方向)的对称发展形式被打破,而当年均 B/H 超过 28 时,水流效应凸显。最后,在第 4 阶段(28.9 < B/H ≤ 29.5),河道对水流的敏感性出现了明显的起跳过程。这些事件特征与流体力学中层流向湍流的过渡非常相似。这项研究为更深入地探索蜿蜒机制提供了启示,也为有效的河流管理提供了技术支持。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
7.20
自引率
4.30%
发文量
567
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