Retention of snowmelt and rain from extensive green roofs during snow-covered periods

IF 2.3 Q3 ENVIRONMENTAL SCIENCES

Blue-Green Systems Pub Date : 2022-11-02 DOI:10.2166/bgs.2022.011

B. Braskerud, K. Paus

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Abstract

Green roofs are a popular way to include nature in an urban environment. A reduction in stormwater runoff peaks and volumes are among the benefits one can expect. How is runoff from green roofs in the cold and snow-covered part of the year, when growth media freeze, plants are dormant and covered with melting snow? This paper investigates 11 years of runoff from three green extensive roofs in Oslo, Norway. Precipitation through the snow-covered period (SCP) was approximately one-third of the annual precipitation (970 mm). When runoff from green roofs is compared to runoff from a non-vegetated bitumen roof, retention of 16–31% is seen through the SCP, depending on the drainage system, fabric, soil quality, and depth. The difference in buildup did not influence the detention of the largest runoff intensities. Dampening the runoff happened even though the substrate was saturated. According to the soil moisture sensors, the capacity of the roof with the highest water retention could be increased even more if drainage could be restricted. The runoff from bitumen roofs always exceeded the runoff from green roofs. As a result, harmful inundation may be reduced in a part of the year when infiltration is restricted due to frost.

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积雪期间，大面积绿色屋顶的融雪和雨水滞留

绿色屋顶是将自然融入城市环境的一种流行方式。减少雨水径流峰值和流量是可以预期的好处之一。在一年中寒冷和积雪的部分，当生长介质冻结，植物休眠并被融化的雪覆盖时，绿色屋顶的径流是如何产生的？本文调查了挪威奥斯陆三个绿色大面积屋顶11年的径流情况。积雪期的降水量约为年降水量（970毫米）的三分之一。当将绿色屋顶的径流与无植被沥青屋顶的径流进行比较时，根据排水系统、结构、土壤质量和深度，SCP的截留率为16-31%。堆积的差异不会影响最大径流强度的滞留。即使基质饱和，径流也会被抑制。根据土壤湿度传感器，如果可以限制排水，则具有最高保水性的屋顶的容量可以进一步增加。沥青屋顶的径流总是超过绿色屋顶的径流。因此，在一年中因霜冻而限制渗透的部分时间，有害的洪水可能会减少。

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 Multiple-

CiteScore

8.70

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0.00%

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