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A Study on Dissolve and Remove Analysis of Pollutants in Drinking Water by Suspected Cancer Causing Organic Chemicals using AOPs (Advanced Oxidation Processes) & M/F Hybird Process  

An, Tai-Young ((INC) Ways's synthetic Environmental Technolgy)
Park, Mi-young ((INC) Ways's synthetic Environmental Technolgy)
Hur, Jang-hyun (Division of Biological Environmental college of Agriculture and Life Sciences, Kangwon University)
Jun, Sang-ho (Department of Environmental science, Kangwon University)
Han, Mi-Ae (Department of Environmental science, Kangwon University)
An, Yoon-Hee (Department of civil & Environmental Engineering, Yonsei University)
Publication Information
Journal of Korean Society on Water Environment / v.23, no.2, 2007 , pp. 193-200 More about this Journal
Abstract
The AOPs research defined by creating a sufficient amount of OH radicals from the dissolution of organic materials through photoxidation and research for a complete elimination of residual organic materials by membrane are actively ongoing. This research focuses on the hybrid processing of AOPs and M/F membrane to dissolve and eliminate organic chemicals in drinking water which are suspected of carcinogens. For this purpose, underground water was used as a source of drinking water for the hybrid processing of AOPs oxidation and M/F membrane, and a pilot plant test device was installed indoor. Carcinogenic chemicals of VOCs and pesticide were artificially mixed with the drinking water, which was then diluted close to natural water in order to examine treatment efficiency and draw optimal operation conditions. The samples used for this experiment include four chemicals phenol, chloroform, in VOCs and parathion, carbaryl in pesticide. As a result of the experiments conducted with simple, and compound solutions, the conditions to sufficiently dissolve and eliminate carcinogenic chemicals from the hybrid processing of where carcinogens were artificially added are : (hydrogen peroxide) prescribed solution 100 mg/L under pH 5.5~6.0, and the temperature $12{\sim}16^{\circ}C$, at the normal temperature and pressure. $d-O_3$ volume of 5.0 ppm and above and 30-40 minutes of reaction time are most appropriate and using MF/UF for membrane was ideal.
Keywords
AOPs oxidation; Carcinogen; M/F; OH Radical; Pesticide; VOCs;
Citations & Related Records
Times Cited By KSCI : 1  (Citation Analysis)
연도 인용수 순위
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