Assessing bacterial growth potential in a model distribution system receiving nanofiltration membrane treated water

This study was designed to assess the extent of bacterial growth in a model distribution system fed with the water treated by nanofiltration (NF) membranes under controlled conditions. The three NF membranes were used in improving the quality of tap water in a lab-scale process. The changes in total...

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Bibliographic Details
Published in:Desalination 2012-06, Vol.296, p.7-15
Main Authors: Park, Se-Keun, Choi, Jae-Hoon, Hu, Jiang Yong
Format: Article
Language:English
Subjects:
Applied sciences
Bacteria
bacterial adhesion
bacterial communities
Bacterial growth
Biofilm
Biofilms
Biostablility
Carbon
cell growth
cell proliferation
Cellular
Chemical engineering
desalination
Drinking water
Drinking water and swimming-pool water. Desalination
Exact sciences and technology
growth models
Membrane separation (reverse osmosis, dialysis...)
Membranes
microbial growth
Nanofiltration
Nanofiltration (NF)
Pollution
Receiving
tap water
Water treatment and pollution
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Summary:This study was designed to assess the extent of bacterial growth in a model distribution system fed with the water treated by nanofiltration (NF) membranes under controlled conditions. The three NF membranes were used in improving the quality of tap water in a lab-scale process. The changes in total cell counts and culturable heterotrophic bacteria in both bulk water and biofilm were monitored during transport of NF permeate water through the model distribution system. The NF membranes were capable of removing the assimilable organic carbon (AOC) contents, but not low enough to restrict bacterial growth. Bacterial adhesion and cellular proliferation were observed in the NF permeate-fed systems, which were apparently characterized by the increase in the fraction of culturable heterotrophic bacteria and the relative abundance of α-Proteobacteria in bacterial community of biofilms. The overall specific cell growth rate which indicates the growth potential in the whole system was calculated as 0.07–0.08day−1. Results indicate that the NF permeate water has some potential to support bacterial growth in a distribution system, although the NF membrane is able to improve the quality of drinking water. Consequently, proper care should be taken to secure biostability to acceptable levels. ► Bacterial growth potential of NF-treated water was assessed. ► NF treated water did support biofilm and bulk cell growth in a distribution system. ► NF permeate water is not likely to be regarded as biologically stable.
ISSN:0011-9164
1873-4464
DOI:10.1016/j.desal.2012.03.022