水库拦沙对黄河下游河床演变的影响

Impact of sediment retention by reservoirs on the fluvial process in the Lower Yellow River

  • 摘要: 为充分认识水库拦沙对其下游河道河床演变及防洪的影响, 基于三门峡水库和小浪底水库拦沙期水沙及断面观测资料, 研究了黄河下游河槽冲淤、洪水冲刷效率、河槽几何特征、排洪能力等规律。结果表明: 水库拦沙期, 黄河下游沿程河槽均发生了不均衡冲刷; 河床粗化明显, 粗化后床沙中值粒径最大值为冲刷前的2.1~2.5倍; 高村以上河段同水位过洪能力增加明显, 冲刷后较大的河槽容积可为小浪底水库排沙提供暂时的滞沙; 河床粗化后细泥沙和中泥沙补给能力不足, 河槽冲刷效率随冲刷历时的增加衰减明显。由于水库多年调节水沙过程及下游相对完善的河道整治工程约束, 小浪底水库拦沙期黄河下游河槽冲刷重心下移, 河床粗化程度增加, 冲刷效率明显降低。研究成果可为水库水沙调控技术指标的选取提供科学依据。

     

    Abstract: To comprehensively assess the impact of sediment retention by reservoirs on downstream fluvial processes and flood control, this study analyzed sediment and cross-sectional data collected during the sediment retention periods at the Sanmenxia (SMX) and Xiaolangdi (XLD) reservoirs. The research explored patterns of channel aggradation and degradation, flood scouring efficiency, channel geometric characteristics, and flood discharge capacity in the Lower Yellow River (LYR). The results revealed uneven scouring throughout the LYR, with notable riverbed coarsening—the median grain size of the bed sediment increased by 2.1 to 2.5 times that before scouring. Above Gaocun, enhanced flood discharge capacity at equivalent water levels was observed, and the larger channel storage can temporarily detain sediment from the XLD Reservoir. However, following riverbed coarsening, the depletion of fine and medium silt led to a significant decline in channel scouring efficiency over time. The long-term sediment and water management by the reservoirs, coupled with advanced river engineering in the LYR, shifted the focal area of channel scouring downstream during the XLD Reservoir′s sediment retention period compared to that during the SMX period. This shift was accompanied by an increase in riverbed coarsening and a marked decrease in scouring efficiency. These findings provide a scientific foundation for defining technical parameters for reservoir sediment and water regulation.

     

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