Changes in microbiological quality in model distribution systems after switching from chlorine or chloramines to chlorine dioxide

North American drinking water utilities are currently re-evaluating their disinfection strategies for controlling microbiological growth in distribution systems. Most water systems in North America use free chlorine as a secondary disinfectant. Since chlorine is known to form potentially carcinogeni...

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Bibliographic Details
Published in:Aqua (London) 2006-08, Vol.55 (5), p.301-311
Main Authors: Gagnon, G, Volk, C J, Chauret, C, Murphy, H M, O'Leary, K C, Andrews, R C
Format: Article
Language:English
Subjects:
Biofilms
By-products
Carcinogens
Cell size
Chlorine
Chlorine dioxide
Data points
Disinfectants
Disinfection
Disinfection & disinfectants
Distribution
Drinking water
Microorganisms
Switching
Water distribution
Water distribution systems
Water engineering
Water quality
Water utilities
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Summary:North American drinking water utilities are currently re-evaluating their disinfection strategies for controlling microbiological growth in distribution systems. Most water systems in North America use free chlorine as a secondary disinfectant. Since chlorine is known to form potentially carcinogenic byproducts in drinking water, utilities are looking for an alternative to maintain a disinfectant residual in the distribution system. The objective of this study was to evaluate the response of model drinking water distribution systems to a change in disinfectant from either free chlorine or chloramines to chlorine dioxide, in terms of its impact on microbiological water quality (bulk water and biofilm). Switching from a chlorine residual of 0.5 mg/L to a chlorine dioxide residual of 0.25 mg/L did not impact (negatively or positively) microbial water quality as quantified by heterotrophic and total cell counts (sample size = 8 data points). Thus, on the basis of the mass of disinfectant applied, chlorine dioxide was more efficient than free chlorine at controlling microbiological growth in the model distribution system. Similarly, chlorine dioxide was more efficient than chloramines, as a chlorine dioxide residual of 0.25 mg/L inactivated 0.75-1 log more suspended organisms than 1.0 mg/L residual of chloramines. Therefore, under the tested conditions, chlorine showed similar or better disinfection efficiency than free chlorine and chloramines, respectively.
ISSN:0003-7214
1606-9935
1605-3974
1365-2087
DOI:10.2166/aqua.2006.011