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http://dx.doi.org/10.12925/jkocs.2004.21.4.14

Electrochemical Removal Characteristics of Disinfection By-products by Chlorination in Drinking Water  

Kwon, Sun-Woo (Department of Chemical Engineering, Chungbuk National University)
Lee, Jong-Dae (Department of Chemical Engineering, Chungbuk National University)
Sin, Jang-Sik (Department of Chemical Engineering, Chungbuk National University)
Publication Information
Journal of the Korean Applied Science and Technology / v.21, no.4, 2004 , pp. 364-369 More about this Journal
Abstract
It has been confirmed that some Trihalomethanes (THMs) suspected as carcinogens, can be formed during chlorination for water supply through the reaction of chlorine and humic substances in water. The electrochemical characteristics on activated carbon fiber filter (ACF) electrode were investigated to remove the THMs in the chlorination process of drinking water. The electrochemical removal efficiency depended on the applied voltage and flow rate. In this study, the best result showed that the removal efficiency of THMs was higher than 99%.
Keywords
THMs; ACF; DBPs; electrochemical removal;
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1 환경부, '먹는 물 수질기준 관련 규정집', (2002)
2 K. J. Lee, B. H. Kim, J. E. Hong, H. S. Pyo, S. J. Park, and D. W. Lee, A Study on the Distribution of Chlorination By-Products (CBPs) In Treated Water in Korea, Water Research, 35(2), 2861 (2001)   DOI   ScienceOn
3 채선하, 김충환, 조재원, 금강원수를 대상으로 하는 수 처리 공정에서 소독부산물 생성 특성 및 제거에 관한 연구, 대한환경공학회지, 22(9), 1589 (2000)
4 B. E. Rittmann and P. M. Huck, Biological Treatment of Public Water Supplies, CRC Critical Rev. in Env. Cont., 19, 119 (1989)   DOI
5 M. S. Siddiqui, G. L Amy, and B. D Murphy, Ozone Enhanced Removal of Natural Organic Matter from Drinking Water Sources, Water Res., 31(12), 3098 (1997)   DOI   ScienceOn
6 유광식, 박상윤, 양성봉, 유상범, 휘발성 할로겐 화합물(THM)의 양극 산화에 관한 연구, 분석과학, 10(4), 264 (1997)
7 T. A. Bellar, J. J. Lichtenberg, and R. C. Kronet, The Occurence of Oragnohalides in Chlorinated Drinking Water., EPA-670 4-74-008, Cincinnati, Ohio (1974)
8 신호상, 박치후, 암모니아가 염소 소독력 및 소독부산물 생성에 미치는 영향, 한국물환경학회지, 15(4), 489(1999)
9 H. Shemer and N. Narkis, Sonochemical Removal of Trihalomethanes from Aqueous Solutions, Ultrasonics Sonochemistry (2004)
10 E. A. Bryant, G. P. Fulton and G. C. Budd, 'Disinfection Alternatives for Safe Drinking Water, Van Nostrand Reinhold', pp. 91, New York (1992)
11 J. J. Rook, Formation of Haloform During Chlorination of Natural Water. Water Treatment & Examination., 23(2), 234 (1974)
12 신항식, 임경호, Removal of Taste and Odour Causing Compounds and THM Precursors by Biological Treatment, 대한토목학회논문집, 16(ll-2), 183 (1996)
13 J. Staehelin and J. Hoign, Decomposition of Ozone in Water: Rate of Initiation by Hydroxide Ions and Hydrogen Peroxide, Environ Sci. Technol., 16, 676 (1982)   DOI
14 T. Chaiket, P. C. Singer, M. Amya, M. Moran, and C. Pallotta, Effectiveness of Coagulation, Ozonation, and Biofiltration in Controlling DBPs, J. AWWA, 94(2), 81 (2002)
15 환경부, '먹는 물 수질감시항목 운영지침 및 시험방법,. pp. 5 (2001)
16 김영진, 임용성, 신판세, 현길수, 상수처리에서 염소소독부산물 현황과 제어에 관한 연구, 수처리기술, 12(1), 75 (2004)
17 윤제용, 변석종, 염철민,조순행, 김충환, 채선화, 파일롯 공정에서 클로라민에 의한 소독부산물 생성특성 연구, 한국물환경학회지, 18(1), 77 (2002)
18 R. Gracia, S. Cortes, J. Sarasa, P. Ormad, and J. L. Ovelleiro, TiO$_2$-catalysed Ozonation of Raw Ebro River Water, Water Research, 34(5), 1525 (2000)   DOI   ScienceOn
19 T. F. Marhaba and D. Van, The Variation of Mass and Disinfection By-product Formation Potential of Dissolved Organic Matter Fractions along a Conventional Surface Water Treatment Plant., J. of Hazardous Materials, 74, 133 (2000)   DOI   ScienceOn
20 D. M. Owen, Z. K. Chowdhury, R. S. Summers, S. M. Hooper, G. Solarik, and K. Gary, 'Removal of DBP Precursors by GAC Adsorption' , p. 135, AWWA, Denver (1998)
21 J. G. jacangelo, N. L. Patania, K. M Reagau, E. M. Aieta, S. W. Krasner, and M. J. McGuire, Ozonation : Assessing Its Role in the Formation and Control of Disinfection By-products, J. AWWA, 81(8), 74 (1989)