Author: Ge, Yuexian; Zhang, Xinran; Shu, Longfei; Yang, Xin
Title: Kinetics and Mechanisms of Virus Inactivation by Chlorine Dioxide in Water Treatment: A Review Cord-id: a66dw53p Document date: 2021_2_25
ID: a66dw53p
Snippet: Chlorine dioxide (ClO(2)), an alternative disinfectant to chlorine, has been widely applied in water and wastewater disinfection. This paper aims at presenting an overview of the inactivation kinetics and mechanisms of ClO(2) with viruses. The inactivation efficiencies vary greatly among different virus species. The inactivation rates for different serotypes within a family of viruses can differ by over 284%. Generally, to achieve a 4-log removal, the exposure doses, also being referred to as Ct
Document: Chlorine dioxide (ClO(2)), an alternative disinfectant to chlorine, has been widely applied in water and wastewater disinfection. This paper aims at presenting an overview of the inactivation kinetics and mechanisms of ClO(2) with viruses. The inactivation efficiencies vary greatly among different virus species. The inactivation rates for different serotypes within a family of viruses can differ by over 284%. Generally, to achieve a 4-log removal, the exposure doses, also being referred to as Ct values (mutiplying the concentration of ClO(2) and contact time) vary in the range of 0.06–10 mg L(−1) min. Inactivation kinetics of viruses show two phases: an initial rapid inactivation phase followed by a tailing phase. Inactivation rates of viruses increase as pH or temperature increases, but show different trends with increasing concentrations of dissolved organic matter (DOM). Both damages in viral proteins and in the 5′ noncoding region within the genome contribute to virus inactivation upon ClO(2) disinfection. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s00128-021-03137-3.
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