Quantifying the impact of the urban karst on infiltrated stormwater

IF 2.3 Q3 ENVIRONMENTAL SCIENCES
Abolfazl Poozan, M. J. Burns, M. Arora, A. Western
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引用次数: 0

Abstract

Urbanization alters the flow regime of streams, including increasing the frequency and magnitude of storm flows, along with reducing baseflows. An increasingly common management strategy is stormwater infiltration, which is thought to reduce surface runoff and recharge groundwater and thus restore lost baseflows to streams. Recent research has pointed to considerable uncertainty on the fate of infiltrated stormwater, particularly due to the presence of human-made underground infrastructure – e.g. sewer and water supply pipes, telecommunication cables. Such infrastructure is commonly housed in trenches partially filled with highly permeable material and this can cause urban karst like flow conditions. We used a dynamic subsurface flow model (HYDRUS-3D) to predict the impact of the urban karst on the fate of infiltrated stormwater. The model was constructed with the presence of a sewer pipe situated between an infiltration basin and a stream. The model predicted that the impact of the urban karst on infiltrated stormwater increases with higher groundwater levels, and greater contrast between hydraulic conductivity of regional soil and gravel which surrounds the sewer pipe. Results suggest that it is important to consider the impact of the urban karst in cases where the goal of stormwater infiltration is baseflow restoration.
量化城市喀斯特对入渗雨水的影响
城市化改变了河流的流动状况,包括增加了暴雨的频率和强度,同时减少了基流。雨水渗透是一种越来越普遍的管理策略,它被认为可以减少地表径流并补充地下水,从而使失去的基流恢复到溪流中。最近的研究指出,渗入的雨水的命运相当不确定,特别是由于存在人造地下基础设施-例如下水道和供水管道,电信电缆。这类基础设施通常建在沟渠中,沟渠中部分填满了高渗透性材料,这可能导致类似城市喀斯特的水流状况。我们使用动态地下流模型(HYDRUS-3D)来预测城市喀斯特对入渗雨水命运的影响。该模型是在一个位于渗透盆地和溪流之间的污水管道的存在下构建的。该模型预测,城市喀斯特对入渗雨水的影响随着地下水位的升高而增大,区域土壤和污水管道周围砾石的水力导电性差异越大。结果表明,当雨水入渗的目标是恢复基流时,考虑城市喀斯特的影响是重要的。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Blue-Green Systems
Blue-Green Systems Multiple-
CiteScore
8.70
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