Untangling the Effects of Hydraulic Design on Opportunistic Pathogen Growth Potential with an at-Scale Plumbing Rig.

IF 4.3 Q1 ENVIRONMENTAL SCIENCES ACS ES&T water Pub Date : 2025-01-03 eCollection Date: 2025-02-14 DOI:10.1021/acsestwater.4c00812

Sarah Busch, Tolulope O Odimayomi, William J Rhoads, Amy Pruden, Marc A Edwards

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Abstract

A building plumbing rig experiment simultaneously examined how water temperature (cold/hot lines), influent disinfectant residual (0-1 mg/L chloramine), flow rate (0.5-2.2 gpm), and water retention time (WRT) of 0-17-days impacted water quality at the point of use. In cold water lines with no disinfectant, WRT was a key driver of bacterial growth, with total cell counts (TCC) in the water increasing by up to 20× relative to influent water at 6.7-days WRT. A chloramine residual in cold influent water suppressed the maximum TCC by about 50%, even after the residual was no longer measurable. When the water heater set point was warm (40 °C) with minimal or 1 mg/L Cl₂ chloramine, the majority of microbial growth occurred in the tank (WRT = 3 days). However, at a heater set point of 60 °C with 1 mg/L as Cl_2, growth was completely repressed in the tank, shifting growth to the distal pipes. Legionella spp. gene copies measured in cold bulk water increased with WRT, but not flow velocity. In hot water biofilms, Legionella spp. gene copies were highest at low WRT and high flow velocities. Mycobacterium spp. gene copies in hot water biofilms escalated after chloramines were introduced and were positively correlated to water velocity.

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解开水力设计对机会性病原体生长潜力的影响与规模管道装置。

一项建筑管道装置实验同时检测了水温（冷线/热线）、进水消毒剂残留量（0-1 mg/L氯胺）、流速（0.5-2.2 gpm）和水潴留时间（WRT）在0-17天内对使用点水质的影响。在没有消毒剂的冷水管道中，WRT是细菌生长的关键驱动因素，在WRT为6.7天时，水中的总细胞计数（TCC）相对于进水增加了20倍。冷进水中的氯胺残留抑制了最大TCC约50%，即使在残留不再可测量后也是如此。当热水器设定点为温暖（40°C）， Cl2氯胺含量最少或1 mg/L时，大部分微生物生长发生在水箱中（WRT = 3天）。然而，当加热设定点为60°C， Cl2浓度为1mg /L时，罐内的生长被完全抑制，生长转移到远端管道。军团菌基因拷贝数随WRT的增加而增加，但不随流速的增加而增加。在热水生物膜中，军团菌基因拷贝数在低WRT和高流速条件下最高。引入氯胺后，热水生物膜中的分枝杆菌基因拷贝量增加，且与水流速呈正相关。

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ACS ES&T water

CiteScore

5.40

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