Aqua (Nov 2021)

Batch test to evaluate microbial disinfectant decay and the onset of nitrification

  • Daniel B. Scott,
  • Michele I. Van Dyke,
  • William B. Anderson,
  • Patrick W. King,
  • Peter M. Huck

DOI
https://doi.org/10.2166/aqua.2021.060
Journal volume & issue
Vol. 70, no. 7
pp. 1012 – 1023

Abstract

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A batch test procedure was investigated to provide insight into the microbial contribution to disinfectant decay in drinking water distribution systems using chloramines. A modified method for determining the critical threshold residual (CTR), the intersection point on a semi-log plot between first-order total chlorine fitted decay curves before and after the breakpoint, was developed. Unlike the CTR as originally defined, initial sample conditions were retained rather than artificially raising the monochloramine concentrations. The CTR calculated with this modified method can more easily be applied to distribution system scenarios. In addition, four types of decay curves were identified and could distinguish differences in the microbial contribution to disinfectant residual decay. This study revealed that chloramine decay batch tests should be evaluated based on decay curve type, decay rates, and the CTR value, in addition to the microbial decay factor, which has been used alone in previous studies. The batch test approach and evaluation criteria established here can be used to predict conditions favorable for rapid chloramine decay and nitrification, and that monitoring and control strategies should be implemented. HIGHLIGHTS The developed batch test procedure distinguishes between chemical and microbial contributions to chloramine decay and determines nitrification potential.; The critical threshold residual (CTR) was identified as the intersection of fitted first-order total chlorine decay curves before and after a breakpoint.; Batch tests were evaluated by decay curve type, decay curve rate, CTR, and microbial decay factor.;

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