PRIVATE LOT FLOOD PEAK ATTENUATION BY STORMWATER DETENTION TANKS

WIT Transactions on the Built Environment Pub Date : 2022-09-14 DOI:10.2495/friar220051

Lucy Marta Schellin, R. Dziedzic, M. Dziedzic

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Abstract

Changes in the hydrological cycle due to climate change and urbanization augment and accelerate runoff and flooding, degrade the urban environment, and cause human and material losses. Thus, it is important to implement measures that ensure urban hydrological conditions are kept as close as possible to pre-urbanization conditions, preventing floods. In addition to the conventional major and minor systems, cities may establish criteria for percentage of permeable area as well as stormwater management practices such as stormwater detention tanks, a type of low impact development technology (LID). The present study evaluates the adequacy of current practices in private lot detention tank design. It analyses time to empty, total detention time and flood peak abatement provided by detention tanks designed according to Curitiba’s (Brazil) Bylaw 176/2007. Based on the results obtained, modifications were suggested to existing legislation to increase the efficiency of the detention tanks and, thus, reduce urban flooding and adapt to climate change. The proposed methodology can be applied elsewhere to guide detention tank design.

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利用蓄洪池减低私人地段的洪峰

气候变化和城市化导致的水文循环变化增加并加速了径流和洪水，使城市环境退化，并造成人员和物质损失。因此，重要的是要采取措施，确保城市水文条件尽可能接近城市化前的条件，防止洪水。除了传统的主要和次要系统之外，城市还可以制定可渗透面积百分比的标准以及雨水管理实践，例如雨水储存罐，这是一种低影响开发技术(LID)。本研究评估私人地段蓄水池设计的现行做法是否足够。分析了根据库里蒂巴(巴西)第176/2007号章程设计的蓄水池提供的排空时间、总蓄水池时间和洪峰消减时间。根据所获得的结果，建议对现有立法进行修改，以提高储罐的效率，从而减少城市洪水并适应气候变化。所提出的方法可以应用于其他地方，以指导储罐的设计。

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

WIT Transactions on the Built Environment

CiteScore

1.20

自引率

0.00%

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