Impact of design variables on hydrologic and thermal performance of green, blue-green and blue roofs

IF 2.3 Q3 ENVIRONMENTAL SCIENCES Blue-Green Systems Pub Date : 2022-09-28 DOI:10.2166/bgs.2022.016
Tamer Almaaitah, J. Drake, D. Joksimovic
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引用次数: 4

Abstract

Blue-green and blue roofs are increasingly promoted to adapt to climate change by providing multiple benefits. However, uncertainties about their design and how they differ from conventional green roofs hinder their implementation. This study investigates the potential of green, blue-green, and blue roofs to control urban stormwater and improve microclimate by monitoring their performance in Toronto, Ontario, Canada. Experimental setups were built and varied with the following design factors: substrate type and thickness, drainage layer thickness and orifice size. The results revealed that blue-green roofs with organic and FLL (blended according to the German Forschungsgesellschaft Landschaftsentiwicklung Landschaftsbau) substrates significantly improved detention compared to green roofs with similar substrates. The organic blue-green roof achieved maximum retention, but FLL blue-green roof did not have higher retention than FLL green roof. The blue roof with smaller orifices had comparable hydrologic performance to vegetated roofs but suffered from long water standing durations. Organic substrates followed by FLL substrates result in the highest air cooling in the noon, but blue roofs had the highest air cooling in the evening. In-substrate temperatures in blue-green roofs were lower than those in green roofs. Trade-offs between the benefits and drawbacks need to be considered in future designs.
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设计变量对绿色、蓝绿色和蓝色屋顶水文和热工性能的影响
蓝绿色和蓝色屋顶越来越多地被推广,通过提供多种好处来适应气候变化。然而,其设计的不确定性以及与传统绿色屋顶的区别阻碍了其实施。本研究通过监测绿色、蓝绿色和蓝色屋顶在加拿大安大略省多伦多市的表现,调查了它们控制城市雨水和改善小气候的潜力。建立了实验装置,并根据以下设计因素进行了变化:基底类型和厚度、排水层厚度和孔口尺寸。结果表明,与具有类似基质的绿色屋顶相比,具有有机基质和FLL基质的蓝绿色屋顶(根据德国Forschungsgeellschaft-Landschaftsentiwicklung Landschaftsbau混合)显著改善了滞留。有机蓝绿色屋顶达到了最大的保留率,但FLL蓝绿色屋顶的保留率并不比FLL绿色屋顶高。孔口较小的蓝色屋顶的水文性能与植被屋顶相当,但积水时间较长。有机基质和FLL基质在中午的空气冷却最高,但蓝色屋顶在晚上的空气冷却最多。蓝绿色屋顶的基质温度低于绿色屋顶。在未来的设计中需要考虑利弊之间的权衡。
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来源期刊
Blue-Green Systems
Blue-Green Systems Multiple-
CiteScore
8.70
自引率
0.00%
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