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无锡市排涝对外部承泄河道洪涝情势的影响及机制研究OA

Research on impact and mechanism of drainage from Wuxi City on flood situation of external drainage channels

中文摘要英文摘要

针对城市排涝能力提升可能引发洪涝风险的空间转移,对外部承泄河道防洪安全产生不利影响的问题,以无锡市中心城区及毗邻江南运河为研究区,构建精细化水文水动力模型,采用情景分析法对比了自然重力排水、现状泵站排水、加大泵站能力排水3 种排涝模式对城内外洪涝风险的差异化影响.结果表明:泵站启用可显著降低城区洪峰水位并缩短超警戒水位历时,但在现有调度规则下,进一步提升泵站能力带来的水位改善效果不再显著;无锡市集中强排在承泄河道口门处产生的动量交换效应构成沿程向上的水力屏障,导致上游河段出现流向逆转和水位壅高,而下游河段受影响较小;当承泄河道基流流量较低时,强制性侧向入流更易改变河道原有流态,呈现明显的低流量敏感性特征.

In response to the potential spatial transfer of flood risks caused by the improvement of urban drainage capacity and the adverse impact on flood control safety of external drainage channels,a refined hydrological and hydrodynamic model was constructed in the central urban area of Wuxi City and adjacent Jiangnan Canal as the study area.The scenario analysis method was used to compare the differential effects of three drainage modes,namely natural gravity drainage,current pump station drainage,and increased pump station capacity drainage,on flood risks inside and outside the city.The results show that the use of pumping stations can significantly reduce the peak water level in urban areas and shorten the duration of exceeding the warning water level.However,under the existing scheduling rules,the water level improvement effect brought by further improving the pumping station capacity is no longer significant.The momentum exchange effect generated by the concentrated strong discharge at the mouth of the discharge channel in Wuxi City forms a hydraulic barrier along the way,leading to flow reversal and water level rise in the upstream section,while the downstream section is less affected.When the base flow rate of the discharge channel is low,forced lateral inflow is more likely to change the original flow state of the channel,showing obvious low flow sensitivity characteristics.

李曦亭;王磊之;高玉琴;梁志红;苏鑫;揭仕青

水利部水旱灾害防御重点实验室||河海大学水科学研究院水利部水旱灾害防御重点实验室||南京水利科学研究院水灾害防御全国重点实验室河海大学水科学研究院河海大学水科学研究院南京水利科学研究院水灾害防御全国重点实验室抚河水文水资源监测中心

城市排涝洪涝风险承泄河道水文水动力模型无锡市

urban drainageflood riskdrainage channelhydrological and hydrodynamic modelWuxi City

《水资源保护》 2026 (2)

50-58,9

水利部水旱灾害防御重点实验室开放研究基金项目(WX20241100510)国家自然科学基金项目(52239008,52509014)江苏省自然科学基金项目(BK20251476)江苏省卓越博士后计划项目(2025ZB322)

10.3880/j.issn.1004-6933.2026.02.006

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