长江科学院院报 ›› 2024, Vol. 41 ›› Issue (8): 15-22.DOI: 10.11988/ckyyb.20230580

• 河湖保护与治理 • 上一篇    下一篇

冲积性弯曲河道造床过程及演变机制

渠庚1,2(), 杨翰林1, 陈羿名1,2(), 郑承太3, 胡呈维1,2, 栾华龙1,2   

  1. 1 长江科学院 河流研究所,武汉 430010
    2 长江科学院 水利部长江中下游河湖治理与防洪重点实验室,武汉 430010
    3 中国葛洲坝集团国际工程有限公司,北京 100000
  • 收稿日期:2023-05-30 修回日期:2023-09-14 出版日期:2024-08-01 发布日期:2024-08-13
  • 通讯作者: 陈羿名(1997-),男,湖北荆门人,助理工程师,博士研究生,主要研究方向为水力学及河流动力学。E-mail:
  • 作者简介:

    渠 庚(1980-),男,江苏徐州人,正高级工程师,博士,主要研究方向为水力学及河流动力学。E-mail:

  • 基金资助:
    长江水科学研究联合基金项目(U2240206); 长江水科学研究联合基金项目(U2240224); 国家自然科学基金项目(51679011); 国家自然科学基金项目(51309022)

Process and Evolution Mechanism of Bed Formation in Curved Alluvial Channels

QU Geng1,2(), YANG Han-lin1, CHEN Yi-ming1,2(), ZHENG Cheng-tai3, HU Cheng-wei1,2, LUAN Hua-long1,2   

  1. 1 River Research Department, Changjiang River Scientific Research Institute, Wuhan 430010, China
    2 Key Laboratory of Ministry of Water Resources on River and Lake Regulation and Flood Control in the Middle and Lower Reaches of the Changjiang River, Changjiang River Scientific Research Institute, Wuhan 430010, China
    3 China Gezhouba Group International Engineering Co., Ltd., Beijing 100000, China
  • Received:2023-05-30 Revised:2023-09-14 Published:2024-08-01 Online:2024-08-13

摘要:

冲积性弯曲河道独特的几何边界特征,使得弯曲河道的水沙运动特性和河床演变特性与其他类型河道显著不同。为模拟自然条件下的冲积性弯曲河道河床冲淤演变特性,采用自然模型法的理念在试验水槽中塑造出近似的弯曲河道,探究不同水沙条件对弯曲河道形成和发育过程的影响。试验表明:进口水沙循环周期长、来水来沙强度较小时,弯曲河道达到动态平衡状态所需的时间相对较短,河道形成稳定河宽也较小。弯曲河道在形成和发育过程中,河道的形态要素主要由水沙作用条件决定,在一定变化范围内,当水沙作用循环变换周期较短、来流流量较小、含沙量较大时,有利于形成弯曲度较大的河道;而当来流量较大、水位漫滩冲刷浅滩时,所塑造的弯曲河道会偏向于宽浅形断面形态。在河道弯曲程度和河道横断面形态的调整中,水沙作用变化对横断面形态塑造的作用相对较强。

关键词: 冲积性弯曲河道, 造床过程, 演变机制, 河道形态, 自然模型, 模型试验

Abstract:

The unique geometric boundary characteristics of alluvial bends result in distinct water and sediment transport behaviors and bed evolution dynamics compared to other channel types. To simulate the natural evolution of riverbed scour and siltation in alluvial bends, we employed a natural modeling approach to replicate a representative bend channel in a laboratory flume to investigate the influence of varying water and sediment conditions on the formation and development of bends. The experiments reveal the following: 1) A longer cycle of incoming sediment with lower intensity results in a quicker attainment of dynamic equilibrium in the curved river channel, with a narrower stable channel width. 2) Throughout the formation and development of the bend, morphological changes in the channel are primarily dominated by the prevailing water and sediment conditions. 3) Specifically, within a certain range of variation, shorter cycles of sediment transport, reduced incoming flow rate, and higher sediment concentrations facilitate the development of a more pronounced curvature in the channel. 4) Conversely, higher flow rates causing scouring of shallow areas tend to shape the bend into a wider and shallower cross-section. The adjustments in channel curvature and cross-sectional morphology are predominantly driven by changes in water and sediment transport dynamics, highlighting their significant role in shaping channel morphology.

Key words: curved river channel, bed formation process, evolutionary mechanism, channel morphology, natural model, model test

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