Green roof infrastructure outperforms grey technology in flood mitigation in São Paulo’s urbanized region

IF 2.2 Q2 CONSTRUCTION & BUILDING TECHNOLOGY
Mauricio Jonas Ferreira, Humberto Ribeiro da Rocha
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Abstract

São Paulo City, Brazil, a densely urbanized area in a tropical climate region, is facing increasing challenges from flooding. However, a promising solution has emerged in the form of Nature-Based Solutions (NBS) infrastructure, surpassing traditional grey technology in flood mitigation. This article examines the effectiveness of green roofs in reducing flood risks and highlights their superiority over conventional approaches. We analyzed the direct impacts of surface permeabilization in public areas (sidewalks, streets, and squares) and private areas (urban lots, subdivisions) on runoff volume and peak flow in the Aricanduva River basin in São Paulo city. We used a thoroughly validated hydrological model to compare the interference in the land use of the watershed between a green infrastructure type called Green Roof (GR) and a gray technology called Permeable Pavement (PP), in terms of hydrological efficiency in mitigating floods. The flow and water level simulations for varying areas with GR or PP covered a wide range, allowing for situations above or below the canal overflow level, which provided a good distinction of the impact of boundary conditions. Overall, we observed a positive hydrological response, with a reduction in peak flow and runoff volume proportional to the increase in permeable area, and consequently, proportional to the increase in GR or PP surface within the contributing area. As the main contribution, the hydrological performance calculated with the variation of GR was remarkably superior to the variation of PP in terms of requiring a smaller coverage area with interference to prevent overflow or achieve equivalent efficiency. It is worth noting that the substitution of approximately 24% of the gray roof area with GR prevented canal overflow, which is notably lower than the required substitution of approximately 40% for PP interference. We reinforce the relevance of green roofs as an option to mitigate intense hydrological effects in urban areas and, more importantly, paves the way for other NBS with the same hydrological principles and environmental co-benefits to work individually or in combination.
在圣保罗城市化地区,绿色屋顶基础设施的防洪效果优于灰色技术
巴西圣保罗市是热带气候地区的一个城市密集区,正面临着洪水带来的日益严峻的挑战。然而,以基于自然的解决方案(NBS)基础设施的形式出现了一种前景广阔的解决方案,在洪水缓解方面超越了传统的灰色技术。本文研究了绿色屋顶在降低洪水风险方面的有效性,并强调了其优于传统方法的优势。我们分析了公共区域(人行道、街道和广场)和私人区域(城市地块、小区)地表渗透对圣保罗市阿里坎杜瓦河流域径流量和峰值流量的直接影响。我们使用经过全面验证的水文模型,比较了绿色屋顶(GR)和灰色透水路面(PP)这两种绿色基础设施对流域土地利用的干扰,以及它们在缓解洪水方面的水文效率。对采用 GR 或 PP 的不同区域进行的流量和水位模拟覆盖范围很广,允许出现高于或低于运河溢流水位的情况,从而很好地区分了边界条件的影响。总体而言,我们观察到了积极的水文响应,峰值流量和径流量的减少与透水面积的增加成正比,因此也与水源区内 GR 或 PP 表面的增加成正比。作为主要贡献,GR 变化计算出的水文性能明显优于 PP 变化计算出的水文性能,即需要较小的干扰覆盖面积来防止溢流或达到同等效率。值得注意的是,用 GR 替代约 24% 的灰色屋顶面积就能防止水渠溢流,这明显低于 PP 干扰所需的约 40% 的替代率。我们加强了绿色屋顶作为缓解城市地区强烈水文效应的一种选择的相关性,更重要的是,它为其他具有相同水文原理和环境共同效益的无核生物系统单独或组合发挥作用铺平了道路。
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
Frontiers in Built Environment
Frontiers in Built Environment Social Sciences-Urban Studies
CiteScore
4.80
自引率
6.70%
发文量
266
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