单一水库对下游远端水库和防洪控制点的防洪影响评估
作者:
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(1.武汉大学水资源工程与调度全国重点实验室;2.长江水利委员会水文局 )

作者简介:

陆彦彤(2001—),女,硕士研究生,主要从事水库调度研究。E-mail:luyantong@whu.edu.cn

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基金项目:

国家重点研发计划项目(2021YFC3200302);湖北省自然科学基金联合基金项目(2024AFD354)


Assessment of flood control impact of individual reservoir on downstream remote reservoir and flood control point
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(1.State Key Laboratory of Water Resources Engineering and Management, Wuhan University;2.Bureau of Hydrology, Changjiang Water Resources Commission)

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    摘要:

    为准确评估单一水库对下游远端水库和防洪控制点的防洪影响,基于流域防洪需求及水库特性,以最小化各水库最大出库流量和防洪控制点洪峰流量为目标,构建了水库群联合防洪优化调度模型,采用逐步优化逐次渐进算法进行优化求解;基于最优调度过程,提出削峰贡献度、拦洪贡献度和配合拦洪率3个指标对研究水库的防洪作用进行评价。在长江上游的实例应用结果表明:流域水库群优化调度可平均削减防洪控制点洪峰流量1108m3/s,提升削峰率1.8%,削减洪量59亿m3;研究水库在流域水库群中的防洪贡献显著,削峰贡献度平均为5.4%,拦洪贡献度平均为13.3%,对下游远端水库的配合拦洪率平均为54.3%。

    Abstract:

    To accurately assess the impact of an individual reservoir on the downstream remote reservoir and flood control point, a joint flood control optimal scheduling model for the multi-reservoir system was developed. This model was constructed based on the basin-wide flood control requirements and the characteristics of each reservoir, to minimize the maximum outflow from the individual reservoir and the peak flood discharge at the flood control point. A hybrid algorithm, progressive optimality algorithm and successive approximation, was employed to optimize the model. Based on the optimal scheduling process, three indicators such as peak reduction contribution, flood retention contribution, and coordinated flood retention rate were proposed to evaluate the flood control role of the study reservoir. The example application results in the upper Yangtze River show that optimized joint operation of the multi-reservoir system, on average, reduces the peak flood flow at the flood control point by 1108 m3/s, increases the peak reduction rate by 1.8%, and decreases the flood volume by 5.9 billion m3. The study reservoir makes a notable contribution to flood control within the multi-reservoir system, with an average peak reduction contribution of 5.4%, an average flood retention contribution of 13.3%, and an average flood retention coordination rate of 54.3% for the downstream remote reservoir.

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陆彦彤,徐伟峰,刘攀,等.单一水库对下游远端水库和防洪控制点的防洪影响评估[J].水资源保护,2026,42(3):92-100.(Lu Yantong, Xu Weifeng, Liu Pan, et al. Assessment of flood control impact of individual reservoir on downstream remote reservoir and flood control point[J]. Water Resources Protection,2026,42(3):92-100.(in Chinese))

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  • 在线发布日期: 2026-06-16
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