改进透水路面的水文设计

IF 2.3 Q3 ENVIRONMENTAL SCIENCES Blue-Green Systems Pub Date : 2022-11-02 DOI:10.2166/bgs.2022.004
Elhadi Mohsen Hassan Abdalla, T. Muthanna, K. Alfredsen, E. Sivertsen
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引用次数: 0

摘要

透水路面水文设计的常用方法是使用合成降雨事件。本研究使用不排水PP的合成降雨事件评估了设计方法的有效性。合成降雨事件(25年重现期)用于设计挪威五个城市的不排水路面。使用高时间分辨率(1分钟)的长期模拟(12-30年)测试了这些路面的有效性。雨水管理模型(SWMM)用于生成PP的地表径流时间序列,并应用流量-持续时间曲线分析水文性能。使用合成降雨事件设计PP被发现低估了透水路面的蓄水层深度,导致地表径流频繁发生,这被认为是不排水路面水文设计的失败。地表径流的长期模拟为PP水文设计提供了有价值的信息,可作为PP水文设计的依据。未来,建议使用气候变化模型产生的长期降水数据,将气候变化的影响纳入PP的设计中。
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Towards improving the hydrologic design of permeable pavements
The common approach of the hydrologic design of permeable pavements (PPs) uses synthetic rainfall events. This study assessed the validity of the design approach using synthetic rainfall events for undrained PP. Synthetic rainfall events (25-year return period) were used to design undrained pavements for five Norwegian cities. The effectiveness of these pavements was tested using long-term simulation (12–30 years) with high temporal resolution (1 min). The Storm Water Management Model (SWMM) was used to generate time series of surface runoff for PPs and flow duration curves were applied to analyse the hydrological performances. Designing PP using synthetic rainfall events was found to underestimate the storage layer depth of the permeable pavements leading to the frequent occurrence of surface runoff, which is considered a failure of the hydrologic design of undrained pavements. Long-term simulation of surface runoff was found to provide valuable information for the hydrologic design of PP and can be used as a basis for the PP hydrologic design. In the future, it is recommended to use long-term precipitation data generated from climate change models to incorporate the effect of climate change in the design of PP.
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Blue-Green Systems
Blue-Green Systems Multiple-
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