建筑供水系统中病原体和化学污染物干预措施的定量性能评估:综述与元分析

IF 4.8 Q1 ENVIRONMENTAL SCIENCES
Hunter Quon*, Jumana Alja’fari, Rain Richard, Vishnu Kotta, Kathryn Call, Molly Cahill, Elizabeth Johnson, James Brown, Sayalee Joshi, Treavor Boyer, Lee Voth-Gaeddert and Kerry A. Hamilton, 
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引用次数: 0

摘要

楼宇供水系统的水龄和水温多变,导致水质问题。众所周知,军团菌属、非结核分枝杆菌 (NTM) 和假单胞菌属会在这些系统中栖息和生长,因此通常需要在楼宇层面采取干预措施,以降低其浓度和检测率。金属和消毒副产物 (DBP) 等其他污染物也是健康问题。干预措施通常包括冲洗、温度调节、响应性设施级干预措施(如化学消毒和热冲击)或使用点装置。我们进行了系统的文献综述,总结了以病原体控制为目标的干预措施,并在随后的荟萃分析中量化了其各自的对数减少值(LRV)。在所有研究(n = 45)中,军团菌属是主要目标(n = 45),研究范围从实验室台面/管架到医院、住宅或商业建筑。此外,还评估了重金属(如铜、铅和铁)和三卤甲烷 (THM) 等 DBP 的测量值和 LRV。研究结果表明,环境条件和进水水质在病原体发生和干预效果方面都起着重要作用。应进一步研究重新启用冲洗和提高温度等常见干预措施对军团菌以外的病原体的影响,以及它们对生物膜脱落和病原体重新生长的作用。应结合干预措施和楼宇水质条件来研究权衡问题,例如在病原体失活的同时增加金属浸出。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Quantitative Performance Evaluation of Interventions for Pathogens and Chemical Contaminants in Building Water Systems: A Review and Meta-Analysis

Quantitative Performance Evaluation of Interventions for Pathogens and Chemical Contaminants in Building Water Systems: A Review and Meta-Analysis

Building water systems are associated with variable water age and temperatures, causing water quality concerns. Legionella spp., nontuberculous mycobacteria (NTM), and Pseudomonas spp. are known to inhabit and grow in these systems for which building-level interventions are often required to reduce their concentrations and detections. Other contaminants such as metals and disinfection byproducts (DBPs) are also health concerns. Interventions are typically flushing, temperature manipulation, responsive facility-level interventions (e.g., chemical disinfection and heat shock), or point-of-use devices. A systematic literature review was conducted to summarize interventions targeting pathogen control, and subsequent meta-analysis quantified their respective log reduction values (LRVs). Across the studies (n = 45), Legionella spp. was the primary target (n = 45), and studies varied from laboratory benchtops/pipe racks to hospitals and residential or commercial buildings. Additional measurements and LRVs for heavy metals (e.g., copper, lead, and iron) and DBPs such as trihalomethanes (THMs) were evaluated. The findings pointed to the importance of contextual conditions and incoming water quality in playing a role in both pathogen occurrence and intervention effectiveness. Common interventions such as recommissioning flushing and increased temperature should be further examined for their impacts on pathogens besides Legionella spp. and their contribution to biofilm sloughing and pathogen regrowth. Trade-offs, such as increased metal leaching in parallel with pathogen inactivation, should be examined in context with intervention and building water quality conditions.

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