References
- E. A. Bryant, G. P. Fulton and G. C. Budd, 'Disinfection Alternatives for Safe Drinking Water, Van Nostrand Reinhold', pp. 91, New York (1992)
- J. J. Rook, Formation of Haloform During Chlorination of Natural Water. Water Treatment & Examination., 23(2), 234 (1974)
- 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)
- 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) https://doi.org/10.1016/S0304-3894(99)00190-9
- 환경부, '먹는 물 수질감시항목 운영지침 및 시험방법,. pp. 5 (2001)
- 환경부, '먹는 물 수질기준 관련 규정집', (2002)
- 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) https://doi.org/10.1016/S0043-1354(00)00583-2
- 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)
- 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)
- 채선하, 김충환, 조재원, 금강원수를 대상으로 하는 수 처리 공정에서 소독부산물 생성 특성 및 제거에 관한 연구, 대한환경공학회지, 22(9), 1589 (2000)
- 윤제용, 변석종, 염철민,조순행, 김충환, 채선화, 파일롯 공정에서 클로라민에 의한 소독부산물 생성특성 연구, 한국물환경학회지, 18(1), 77 (2002)
- 신호상, 박치후, 암모니아가 염소 소독력 및 소독부산물 생성에 미치는 영향, 한국물환경학회지, 15(4), 489(1999)
- B. E. Rittmann and P. M. Huck, Biological Treatment of Public Water Supplies, CRC Critical Rev. in Env. Cont., 19, 119 (1989) https://doi.org/10.1080/10643388909388362
- 신항식, 임경호, Removal of Taste and Odour Causing Compounds and THM Precursors by Biological Treatment, 대한토목학회논문집, 16(ll-2), 183 (1996)
- 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)
- 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) https://doi.org/10.1016/S0043-1354(97)00130-9
- 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) https://doi.org/10.1021/es00104a009
- 김영진, 임용성, 신판세, 현길수, 상수처리에서 염소소독부산물 현황과 제어에 관한 연구, 수처리기술, 12(1), 75 (2004)
- 유광식, 박상윤, 양성봉, 유상범, 휘발성 할로겐 화합물(THM)의 양극 산화에 관한 연구, 분석과학, 10(4), 264 (1997)
-
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) https://doi.org/10.1016/S0043-1354(99)00297-3 - H. Shemer and N. Narkis, Sonochemical Removal of Trihalomethanes from Aqueous Solutions, Ultrasonics Sonochemistry (2004)
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