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河湖水系连通对城市河道生态修复水动力作用效果

王少波张舒熊玉龙周新民

人民珠江2025，Vol.46Issue(1)：1-8,8.

人民珠江2025，Vol.46Issue(1)：1-8,8.DOI:10.3969/j.issn.1001-9235.2025.01.001

河湖水系连通对城市河道生态修复水动力作用效果

Hydrodynamic Effects of River-Lake System Connectivity on Ecological Restoration of Urban Rivers:A Case Study of Liede River

王少波 ¹张舒 ¹熊玉龙 ¹周新民²

作者信息

1. 水利部珠江水利委员会水文局,广东广州 510611
2. 广州市河涌监测中心,广东广州 510000
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摘要

Abstract

To investigate the hydrodynamic effects of river-lake system connectivity on the ecological restoration of urban rivers supplemented by reclaimed water,a four-tier framework was employed to establish a mathematical model of river-lake hydrodynamics and pollutant transport by using the Liede River as an example.The study analyzed the driving response patterns of"system connectivity-regulation and storage-water quality."The findings indicate that the average slope of the Liede River bed is 1.95‰,exhibiting typical characteristics of a mountain stream.The operation of the sluice gate at the mouth of the Liede River primarily affects the water depth of approximately one-third of the river upstream of the gate,while the water depth in the middle and upper reaches is mainly controlled by the upstream replenishment flow.Consequently,when the upstream replenishment flow is constant,changes in the water surface rate and wetted perimeter rate are predominantly concentrated in the downstream one-third of the river.After water system connectivity,the regulation and storage capacity of the artificial lake can sustain the current replenishment flow of the Liede River for approximately 20.1 hours and retain pollutants within the artificial lake for about 3.2 days.Pollutants entering the Liede River take around 10 days to reach the river mouth,effectively mitigating the ecological impact of direct water replenishment from the Changhong Lake Pumping Station.The results demonstrate that optimizing the hydrodynamic conditions of urban rivers supplemented by reclaimed water through water system connectivity can significantly enhance river water quality and aquatic habitat environments,thereby promoting ecological restoration.

关键词

城市河道/再生水/水系连通/生态修复/水动力模型/猎德涌

Key words

urban river/reclaimed water/water system connectivity/ecological restoration/hydrodynamic model/Liede River

分类

建筑与水利

引用本文复制引用

王少波,张舒,熊玉龙,周新民..河湖水系连通对城市河道生态修复水动力作用效果[J].人民珠江,2025,46(1):1-8,8.

基金项目

广州市水务科技项目(GZSWKJ2022-004) （GZSWKJ2022-004）

人民珠江

ISSN：1001-9235

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