Identifying periods impacted by sewer inflow and infiltration using time series anomaly detection

IF 7.2 2区 环境科学与生态学 Q1 ENGINEERING, ENVIRONMENTAL
Jingyu Ge , Jiuling Li , Ruihong Qiu , Tao Shi , Zi Huang , Yanchen Liu , Zhiguo Yuan
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引用次数: 0

Abstract

Accurate diagnosis of sewer inflow and infiltration (I/I) is crucial for ensuring the safe transportation of sewage and the stability of wastewater treatment processes. Identifying periods impacted by I/I is essential for I/I diagnosis, but current methods lack a standard criterion and require adaptation to specific conditions, resulting in low accuracy, complexity, and limited generalizability. This paper proposes a novel approach to distinguish I/I periods from time series of sewer measurements based on anomaly detection theory through an iterative use of a time-series reconstruction model. This method eliminates the need for external data such as rainfalls and avoids intensive manual data analysis. Operating directly on in-sewer data, it enhances accuracy compared to existing approaches and is applicable to various external factors such as rainfall, snowmelt, and seawater intrusion. The method can be applicable to a broad range of monitoring data, including flow rate, temperature, and conductivity. Validated through simulation studies and demonstrated via real-life applications, this method offers an efficient solution for I/I detection, facilitating further I/I diagnosis, including I/I quantification and location identification.

Abstract Image

利用时间序列异常检测确定受下水道流入和渗透影响的时段
下水道流入和渗出(I/I)的准确诊断对于确保污水的安全运输和污水处理工艺的稳定性至关重要。识别受流入/渗出影响的时期对于流入/渗出诊断至关重要,但目前的方法缺乏标准准则,需要根据具体条件进行调整,因此准确性低、复杂性高、通用性有限。本文以异常检测理论为基础,通过迭代使用时间序列重建模型,提出了一种从污水测量时间序列中区分内/外溢期的新方法。这种方法不需要降雨量等外部数据,也避免了密集的人工数据分析。与现有方法相比,该方法直接利用下水道内部数据,提高了准确性,并适用于降雨、融雪和海水入侵等各种外部因素。该方法适用于各种监测数据,包括流速、温度和电导率。通过模拟研究和实际应用的验证,该方法为内/外入侵检测提供了高效的解决方案,有助于进一步诊断内/外入侵,包括内/外入侵量化和位置识别。
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来源期刊
Water Research X
Water Research X Environmental Science-Water Science and Technology
CiteScore
12.30
自引率
1.30%
发文量
19
期刊介绍: Water Research X is a sister journal of Water Research, which follows a Gold Open Access model. It focuses on publishing concise, letter-style research papers, visionary perspectives and editorials, as well as mini-reviews on emerging topics. The Journal invites contributions from researchers worldwide on various aspects of the science and technology related to the human impact on the water cycle, water quality, and its global management.
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