Infiltration performance evaluation of a 15-year-old concrete grid paver parking area (Italy)

IF 2.3 Q3 ENVIRONMENTAL SCIENCES
Rudy Rossetto, Alessandro Lenti, Laura Ercoli, Luca Sebastiani, Ataollah Joodavi
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引用次数: 0

Abstract

The management of urban stormwater needs a wide array of environmentally friendly solutions to safeguard water resources and improve the quality of the urban environment. In that, permeable pavements (a type of sustainable drainage system) are designed to reduce the volume and peak flow of stormwater on-site, improve infiltrating water quality, and combat the urban heat island phenomena. In this study, we tested the infiltration capacity of 15-year-old concrete grid pavers (CGPs) using single-ring infiltrometer tests. We investigated how various factors, including location within the parking space, affect infiltration rates. Despite no maintenance and 15 years of operation, the infiltration capacity of the CGPs still exceeds the minimum infiltration capacity of 1.62 mm/min as required in many European regions. This may be due to the presence of soil cracks and the development of plant roots and insect/microorganism activities within the pavement voids. Indeed, this ‘living soil system’ continuously develops and counteracts the formation of clogging, interacting with the compaction process. As such, the selection and management of the vegetation within CGP voids is of primary importance. Our study demonstrates that incorporating CGPs is effective in addressing emerging challenges associated with urban hydrology. Due to effectiveness and limited maintenance requirements, CGPs coul.
对使用了 15 年的混凝土格栅摊铺机停车场进行渗透性能评估(意大利)
城市雨水管理需要一系列环保解决方案,以保护水资源和改善城市环境质量。其中,透水路面(可持续排水系统的一种)旨在减少现场雨水量和峰值流量,改善渗透水质,消除城市热岛现象。在这项研究中,我们使用单环渗透仪测试了使用 15 年的混凝土网格铺路机(CGPs)的渗透能力。我们研究了各种因素(包括停车位的位置)对渗透率的影响。尽管在 15 年的使用过程中没有进行任何维护,但混凝土格栅铺路机的渗透能力仍然超过了许多欧洲地区要求的 1.62 毫米/分钟的最低渗透能力。这可能是由于土壤裂缝的存在以及路面空隙中植物根系和昆虫/微生物活动的发展。事实上,这种 "有生命的土壤系统 "会不断发展,并与压实过程相互作用,抵消堵塞的形成。因此,选择和管理 CGP 空隙内的植被至关重要。我们的研究表明,CGP 能有效解决与城市水文相关的新挑战。由于 CGPs 的有效性和有限的维护要求,CGPs 可用于城市水文系统。
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
Blue-Green Systems Multiple-
CiteScore
8.70
自引率
0.00%
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