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W2020504145 abstract "Research Article| September 01 2012 Optimization and mechanism of copepod zooplankton inactivation using ozone oxidation in drinking water treatment T. Lin; T. Lin 1Ministry of Education, Key Laboratory of Integrated Regulation and Resource Development on Shallow Lakes, Hohai University, 210098, China2College of Environment, Hohai University, 210098, China Search for other works by this author on: This Site PubMed Google Scholar W. Chen; W. Chen 1Ministry of Education, Key Laboratory of Integrated Regulation and Resource Development on Shallow Lakes, Hohai University, 210098, China2College of Environment, Hohai University, 210098, China E-mail: cw5826@hhu.edu.cn Search for other works by this author on: This Site PubMed Google Scholar J. Zhang J. Zhang 2College of Environment, Hohai University, 210098, China Search for other works by this author on: This Site PubMed Google Scholar Journal of Water Supply: Research and Technology-Aqua (2012) 61 (6): 342–351. https://doi.org/10.2166/aqua.2012.026 Article history Received: March 18 2011 Accepted: June 29 2012 Views Icon Views Article contents Figures & tables Video Audio Supplementary Data Share Icon Share Facebook Twitter LinkedIn MailTo Tools Icon Tools Cite Icon Cite Permissions Search Site Search Dropdown Menu toolbar search search input Search input auto suggest filter your search All ContentAll JournalsThis Journal Search Advanced Search Citation T. Lin, W. Chen, J. Zhang; Optimization and mechanism of copepod zooplankton inactivation using ozone oxidation in drinking water treatment. Journal of Water Supply: Research and Technology-Aqua 1 September 2012; 61 (6): 342–351. doi: https://doi.org/10.2166/aqua.2012.026 Download citation file: Ris (Zotero) Reference Manager EasyBib Bookends Mendeley Papers EndNote RefWorks BibTex Bench-scale experiments were carried out to optimize ozone oxidation conditions for copepod inactivation by response surface methodology. Independent variables were ozone dosage (1, 3 and 5 mg/L), contact time (5, 15 and 25 min) and organic matter concentration (2, 5 and 8 mg/L). The results showed that all independent variables significantly influenced copepod inactivation rate. The observed inactivation rate was increased with the increasing ozone dosage and contact time. However, the trend of response gradually stabilized when the contact time was beyond 20 min. Copepod inactivation was more sensitive to high ozone dosage and short contact time under the same CT (dosage × contact time) value conditions. There was a negative effect of organic matter concentration on copepod inactivation. The polynomial response model for inactivation rate of copepod was established with R2 = 0.9933 and adjusted-R2 = 0.9865. The F-value of 165.93 implied the model significance and the p-value lower than 0.0001 indicated its good fit to use in the matrix. The ‘lack of fit (LOF) F-value’ of 0.0099 implied that the LOF was significant relative to pure error. The evaluation of the model showed it is able to make suitable predictions for the intended application. copepod zooplankton, inactivation, oxidation, ozone, response surface optimization This content is only available as a PDF. © IWA Publishing 2012 You do not currently have access to this content." @default.
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