4.8 Article

Building water quality deterioration during water supply restoration after interruption: Influences of premise plumbing configuration

Journal

WATER RESEARCH
Volume 241, Issue -, Pages -

Publisher

PERGAMON-ELSEVIER SCIENCE LTD
DOI: 10.1016/j.watres.2023.120149

Keywords

Premise plumbing; Water supply restoration; Water quality deterioration; Discoloration; System configuration

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This study investigated the influences of plumbing configuration on water quality changes in premise plumbing, focusing on laboratory and toilet plumbing. Results showed that water quality parameters remained stable under regular water supply except for significantly increased zinc levels in laboratory plumbing. Both plumbing types increased the Chao1 index of bacterial community, while only laboratory plumbing altered the bacterial community. Water supply interruption/restoration caused water quality deterioration in both plumbing types, with different changes in physicochemical and microbiological aspects. This study highlighted the importance of optimizing premise plumbing design to manage building water quality.
Premise plumbing plays an essential role in determining the final quality of drinking water consumed by customers. However, little is known about the influences of plumbing configuration on water quality changes. This study selected parallel premise plumbing in the same building with different configurations, i.e., laboratory and toilet plumbing. Water quality deteriorations induced by premise plumbing under regular and interrupted water supply were investigated. The results showed that most of the water quality parameters did not vary under regular supply, except Zn, which was significantly increased by laboratory plumbing (78.2 to 260.7 & mu;g/l). For the bacterial community, the Chao1 index was significantly increased by both plumbing types to a similar level (52 to 104). Laboratory plumbing significantly changed the bacterial community, but toilet plumbing did not. Remarkably, water supply interruption/restoration led to serious water quality deterioration in both plumbing types but resulted in different changes. Physiochemically, discoloration was observed only in laboratory plumbing, along with sharp increases in Mn and Zn. Microbiologically, the increase in ATP was sharper in toilet plumbing than in laboratory plumbing. Some opportunistic pathogen-containing genera, e.g., Legionella spp. and Pseudomonas spp., were present in both plumbing types but only in disturbed samples. This study highlighted the esthetic, chemical, and microbiological risks associated with premise plumbing, for which system configuration plays an important role. Attention should be given to optimizing premise plumbing design for managing building water quality.

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