{"title":"Into the air: a freestanding vertical greenery system (VGS) for evapotranspiration (ET) of roof runoff","authors":"Emilia Danuta Lausen, M. B. Jensen, M. Randall","doi":"10.2166/bgs.2022.029","DOIUrl":null,"url":null,"abstract":"\n In the search for space-efficient nature-based solutions (NBS) for stormwater management, we designed a vertical greenery system (VGS) for enhanced evapotranspiration (ET). After assessing a range of construction options, an 80 m long and 3.2 m high freestanding stormwater-VGS, referred to as the Green Climate Screen (GCS), was constructed in 2019 in Copenhagen. The GCS receives runoff from 240 m2 of roof top and has a high ratio of surface-to-ground area to allow for the clothesline effect to enhance ET. The conveyance of runoff to the top of the GCS is based on gravitational force. It is estimated that 24 h events with return periods up to the 0.1 y (13.9 mm) are managed by ET, from 0.1 to 15 y (48.5 mm) by infiltration beneath the screen, and from 15 to >100 y by overflow to an adjacent area allowing for aboveground storage (167 mm), in total 229 mm. With the fulfillment of most performance criteria and successful inclusion of selected co-benefits ET-based stormwater, NBS could become future standard elements. To reduce CO2 and resource footprint, steel, concrete, and mineral wool must be replaced with renewable materials. Adaptation to more spatial contexts is encouraged.","PeriodicalId":9337,"journal":{"name":"Blue-Green Systems","volume":null,"pages":null},"PeriodicalIF":2.3000,"publicationDate":"2022-12-09","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Blue-Green Systems","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.2166/bgs.2022.029","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"Q3","JCRName":"ENVIRONMENTAL SCIENCES","Score":null,"Total":0}
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Abstract
In the search for space-efficient nature-based solutions (NBS) for stormwater management, we designed a vertical greenery system (VGS) for enhanced evapotranspiration (ET). After assessing a range of construction options, an 80 m long and 3.2 m high freestanding stormwater-VGS, referred to as the Green Climate Screen (GCS), was constructed in 2019 in Copenhagen. The GCS receives runoff from 240 m2 of roof top and has a high ratio of surface-to-ground area to allow for the clothesline effect to enhance ET. The conveyance of runoff to the top of the GCS is based on gravitational force. It is estimated that 24 h events with return periods up to the 0.1 y (13.9 mm) are managed by ET, from 0.1 to 15 y (48.5 mm) by infiltration beneath the screen, and from 15 to >100 y by overflow to an adjacent area allowing for aboveground storage (167 mm), in total 229 mm. With the fulfillment of most performance criteria and successful inclusion of selected co-benefits ET-based stormwater, NBS could become future standard elements. To reduce CO2 and resource footprint, steel, concrete, and mineral wool must be replaced with renewable materials. Adaptation to more spatial contexts is encouraged.
为了寻找空间高效的基于自然的雨水管理解决方案(NBS),我们设计了一个垂直绿化系统(VGS)来增强蒸散发(ET)。在评估了一系列施工方案后,一个80米长、3.2米高的独立式雨水vgs,被称为绿色气候屏幕(GCS),于2019年在哥本哈根建成。GCS接收来自240平方米屋顶的径流,其地面与地面面积的比例很高,允许晾衣绳效应增强ET。径流向GCS顶部的输送基于重力。据估计,24小时的事件,其返回周期高达0.1 y (13.9 mm),由ET管理,从0.1到15 y (48.5 mm)通过渗透到屏幕下,从15到100 y通过溢出到相邻区域,允许地上储存(167 mm),总共229 mm。随着大多数性能标准的实现和基于排放当量的雨水的选定协同效益的成功纳入,NBS可能成为未来的标准要素。为了减少二氧化碳和资源足迹,钢铁、混凝土和矿棉必须用可再生材料代替。鼓励适应更多的空间环境。
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