Flood management in urban drainage: Contributions for the control of water drainage systems using underground barriers

2017 4th Experiment@International Conference (exp.at'17) Pub Date : 2017-06-01 DOI:10.1109/EXPAT.2017.7984346

J. Leitão, A. Cardoso, J. Marques, N. Simões

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引用次数: 5

Abstract

In this work an alternative and innovative usage for urban drainage systems was explored, in which barriers were installed and controlled in upstream underground conduits. This approach intends to use such components to retain water in upstream sections of a given drainage system, reducing water flows that reach its downstream sections and, consequently, their overload degree. The developed rule-based control system monitors the drainage system by acquiring data from different locations and performs the necessary control actions on a set of installed barriers. This control system was applied in drainage systems with a given set of properties, subjected to rainfall events with specific characteristics. With the developed control system, it is possible to prevent flood events within certain limits. When this task becomes impossible water withdrawals to external retention basins can be promoted, avoiding the need to perform any intervention. These results suggest the feasibility of the proposed approach for remote monitoring of drainage systems, accommodating the effects of climate changes.

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城市排水中的洪水管理:利用地下屏障控制排水系统的贡献

在这项工作中，探索了城市排水系统的替代和创新用途，其中在上游地下管道中安装和控制屏障。这种方法打算使用这些组件来保留给定排水系统的上游部分的水，减少到达其下游部分的水流，从而减少其过载程度。开发的基于规则的控制系统通过从不同位置获取数据来监控排水系统，并对一组已安装的屏障执行必要的控制操作。该控制系统应用于具有特定特性的排水系统，并受到具有特定特征的降雨事件的影响。通过开发的控制系统，可以在一定范围内预防洪水事件。当这项任务变得不可能完成时，可以促进向外部截留池取水，从而避免进行任何干预。这些结果表明，在适应气候变化影响的情况下，提出的远程监测排水系统的方法是可行的。

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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2017 4th Experiment@International Conference (exp.at'17)

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