Real-time sensing and low-cost experimental setup for water quantity investigation in Nature-based Solutions

IF 2.3 Q3 ENVIRONMENTAL SCIENCES Blue-Green Systems Pub Date : 2022-07-07 DOI:10.2166/bgs.2022.007
L. Gobatti, J. Martins, Maria Cristina Santana Pereira, B. C. Leite
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引用次数: 1

Abstract

Nature-based Solutions (NbS) Regulatory Ecosystem Services are less tangible and more complex to quantify. Among these, research to quantify water regulation services provided by Blue-Green Infrastructure is especially relevant for a range of different applications. However, to reach this quantification, experimentalists usually need to measure the flow rate, which can be costly if using high-end industry standard sensors. The present article brings, thus, a low-cost experimental setup for real-time data capture and logging using the US-025 ultrasonic sensor. The proposed setup measures a weir tanks’ water level in order to indirectly estimate the flow rate. A successful pilot experiment is described, estimating the water quantity performance of a vegetated roof in comparison to a ceramic tiled roof. For a same event, flow rate measures taken by the proposed setup are compared to readings from a rain gauge and results show a close trend. The performance of the vegetated roof has shown substantial rainfall retention and detention when compared to the ceramic roof. It is concluded that the setup is a cost-effective tool that can be attached to inlets and outlets of different NbS for characterising a range of water flow rates capable of supporting laboratory and field data capture.
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基于自然的解决方案中水量调查的实时传感和低成本实验装置
基于自然的解决方案(NbS)监管生态系统服务不那么有形,量化起来更复杂。其中,对蓝绿基础设施提供的水调节服务进行量化的研究尤其适用于一系列不同的应用。然而,为了达到这种量化,实验者通常需要测量流速,如果使用高端行业标准传感器,这可能会很昂贵。因此,本文提出了一种使用US-025超声波传感器进行实时数据采集和测井的低成本实验装置。建议的设置测量堰池的水位,以间接估计流速。介绍了一个成功的中试实验,与瓷砖屋顶相比,评估了植被屋顶的水量性能。对于同一事件,将所提出的设置所采取的流速测量值与雨量计的读数进行比较,结果显示出接近的趋势。与陶瓷屋顶相比,植被屋顶的性能显示出显著的降雨滞留和滞留。得出的结论是,该装置是一种具有成本效益的工具,可以连接到不同NbS的入口和出口,用于表征一系列能够支持实验室和现场数据采集的水流量。
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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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