Repeated conventional flushing to improve water quality in a full-scale distribution system

AWWA water science Pub Date : 2024-10-10 DOI:10.1002/aws2.70001

Matthew Vedrin, Joseph N. S. Eisenberg, Sarah Page, Rebecca Lahr, Brian Steglitz, Rebecca Hardin, Lutgarde Raskin

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Abstract

One of the primary ways utilities prevent and address water quality concerns in distribution systems is via regular hydrant flushing, yet rigorous research to evaluate the impact of full-scale flushing programs is limited. This study employed time-series and correlation analyses to evaluate the efficacy of a utility's five-month repeated conventional flushing program to reduce nitrification and improve disinfectant residual concentrations in the distribution system. Short-term water quality improvements during flushes were common across the 16 locations flushed, but lasting improvements were inconsistent as demonstrated by continued nitrification and heterogeneous water quality changes. Flushing frequencies and flow rates may need to be tailored to individual sites, even when similar water quality challenges exist. Water quality monitoring data and related analyses helped to prioritize flush sites, maximize efficiency during and between flushes, and inform decisions to implement additional interventions.

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重复常规冲洗以改善全规模输水系统的水质

公用事业公司预防和解决输水系统水质问题的主要方法之一是定期冲洗消防栓，但评估全面冲洗计划影响的严格研究却很有限。本研究采用时间序列和相关性分析来评估公用事业公司为期五个月的重复常规冲洗计划对减少硝化和改善输水系统中消毒剂残留浓度的效果。在冲洗过程中，16 个冲洗点的水质普遍得到短期改善，但持续的硝化和水质的不同变化表明，水质的持久改善并不一致。即使存在类似的水质挑战，冲洗频率和流速也可能需要根据各个地点的具体情况进行调整。水质监测数据和相关分析有助于确定冲洗地点的优先次序，最大限度地提高冲洗期间和两次冲洗之间的效率，并为实施其他干预措施的决策提供信息。

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AWWA water science

CiteScore

4.40

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0.00%

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