Water Management Department, Faculty of Civil Engineering and Geosciences, Delft University of Technology, Stevinweg 1 (Building 23), 2628 CN Delft, The Netherlands.
Water Management Department, Faculty of Civil Engineering and Geosciences, Delft University of Technology, Stevinweg 1 (Building 23), 2628 CN Delft, The Netherlands.
Water Res. 2017 Oct 1;122:678-691. doi: 10.1016/j.watres.2017.06.030. Epub 2017 Jun 12.
Separate sewer systems are sensitive to illegal or mis-connections. Several techniques (including the Distributed Temperature Sensor) are now available to identify and locate those connections. Based on thermal fingerprints, DTS allows the localization of each lateral connection along a reach. The use of Infra-Red camera has been investigated with 748 laboratory experiments (artificial connections along a flume). The tested connections vary in diameters (from 75 to 200 mm), lengths of intrusion (from 0 to 200 m), shapes (circular or linear i.e. cracks), depths, discharge rates between the lateral connection and the main flume, and temperatures. IR frame analysis (for detection) and 2D temperature mapping (at the free water surface, for quantification) demonstrate that: i) the detection limit is very low (ratio between lateral and main discharges: 0.025) and ii) the quantification of the lateral discharge is impossible. Application of an IR camera seems to be a promising technique to detect lateral connections.
独立下水道系统对非法或错误连接很敏感。现在有几种技术(包括分布式温度传感器)可用于识别和定位这些连接。基于热指纹,DTS 可以定位沿一定距离的每个侧连接。已经使用红外摄像机对 748 个实验室实验(沿水槽的人工连接)进行了研究。测试的连接在直径(75 至 200 毫米)、侵入长度(0 至 200 米)、形状(圆形或线性,即裂缝)、深度、侧连接和主水槽之间的流量以及温度方面有所不同。IR 帧分析(用于检测)和二维温度映射(在自由水面,用于量化)表明:i)检测限非常低(侧流和主流量之比:0.025),ii)无法量化侧向流量。红外摄像机的应用似乎是检测侧向连接的一种很有前途的技术。
