设计因素和多阶段环境因素对亚热带绿色屋顶水文性能的影响

Land Pub Date : 2024-07-24 DOI:10.3390/land13081129
Zhongtang Liao, Jialin Liu, Yufei Li
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引用次数: 0

摘要

环境和设计因素决定了屋顶绿化的雨水管理能力;然而,人们对影响亚热带湿润地区屋顶绿化水文性能的设计和环境因素知之甚少。尤其是气象因素很少受到关注。气象因素在降雨事件的不同阶段(如降雨和雨水流出期间)变化很大。因此,应分别考虑不同阶段的气象因素对水文性能的影响,以更准确地了解气象因素对水文性能的影响。本研究根据四种基质类型和两种深度建立了实验性绿色屋顶。本研究首次系统地探讨了基质设计因素(类型和深度)和多阶段环境因素对屋顶绿化水文性能的影响。环境因素包括三个关键阶段(降雨事件前、降雨事件中和降雨流出期间)的气象因素和降雨特征(如降雨深度和降雨持续时间),这些因素被纳入其中,以确定水文性能的变化。分析了多阶段环境因素对滞留和削峰的影响,并对每个因素的相对重要性进行了排序。环境因素在决定水文性能方面发挥了主导作用。然而,多阶段环境因素的影响不如降雨深度和前体积含水量的影响重要。对不同设计因素组合的水文性能差异进行了比较。在不同基质类型和深度之间没有观察到明显差异。不过,可能存在潜在的交互影响,尽管这些影响与环境因素(如降雨深度和降雨持续时间)相比并不显著。这些结果证实,不同事件相关阶段的气象因素对水文性能有显著影响。量化设计和环境因素的影响对于水文性能评估至关重要。这些结果为了解水文性能的影响机制提供了更广阔的视角,并突出了小气候对水文性能的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Effects of Design Factors and Multi-Stage Environmental Factors on Hydrological Performance of Subtropical Green Roofs
Environmental and design factors determine the stormwater management capacity of green roofs; however, the design and environmental factors that impact their hydrological performance in subtropical humid regions are poorly understood. In particular, meteorological factors have received little attention. Meteorological factors vary greatly at different stages of a rainfall event (e.g., during the rainfall and outflow). Therefore, the impact of meteorological factors at different stages on hydrological performance should be considered separately to obtain a more accurate picture of their effects on hydrological performance. In this study, experimental green roofs were established based on four substrate types and two depths. For the first time, this study systematically explored the effects of design factors for the substrate (type and depth) and multi-stage environmental factors on the hydrological performance of green roofs. Environmental factors, including meteorological factors, from three critical stages (before and during a rainfall event and during the outflow), and rainfall characteristics (e.g., rainfall depth and rainfall duration) were incorporated to determine the variation in hydrological performance. The effects of multi-stage environmental factors on retention and peak reduction were analyzed, with a ranking of each factor’s relative importance. Environmental factors played a leading role in determining hydrological performance. However, the impact of multi-stage environmental factors was not as important as that of rainfall depth and antecedent volumetric water content. Differences in hydrological performance were compared across combinations of design factors. No significant differences were observed across substrate types and depths. However, potential interactive effects might exist, though these were not significant compared to environmental factors (e.g., rainfall depth and rainfall duration). These results confirmed that the meteorological factors in the different event-related stages significantly impacted the hydrological performance. Quantifying the effects of design and environmental factors is critical for hydrological performance evaluation. The results provided a broader perspective on understanding influence mechanisms of hydrological performance and highlighted the impact of microclimates on hydrological performance.
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