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Modeling and Application of Chlorine Bulk Decay in Drinking Water Distribution System  

Ahn, Jae-Chan (서울특별시 상수도연구소)
Park, Chang-Min (서울특별시 상수도연구소)
Koo, Ja-Yong (서울시립대학교 환경공학과)
Publication Information
Journal of Korean Society of Water and Wastewater / v.19, no.4, 2005 , pp. 487-496 More about this Journal
Abstract
Chlorine bulk decay tests were carried out by bottle test under controlled conditions in a laboratory. Experiments were performed at different temperatures: $5^{\circ}C$, $15^{\circ}C$, $25^{\circ}C$, and the water temperatures when samples were taken from the effluent just before entering to its distribution system. 38 bulk tests were performed for water of Al (water treatment plant), 4 bulk tests for A2 (large service reservoir), and A3(pumping station). Residual chlorine concentrations in the amber bottles were measured over time till about 100 hours and bulk decay coefficients were evaluated by assuming first-order, parallel first-order, second-order. and $n^{th}-order$ reaction. The $n^{th}-order$ coefficients were obtained using Fourth-order Runge-Kutta Method. A good-fit by the average coefficient of determination ($R^2$) was first-order ($R^2=0.90$) < parallel first-order ($R^2{_{fast}}=0.92$, $R^2{_{slow}}=0.95$) < second-order ($R^2=0.95$) < $n^{th}-order$ ($R^2=0.99$). But if fast reaction of parallel first-order bulk decay were applied to the effluent of large service reservoir with ca. 20 hours of travel time and slow reaction in the water distribution system following the first 20 hours, parallel first-order bulk decay would be best and easy for application of water quality modeling technique.
Keywords
residual chlorine; bulk decay coefficient; first-order reaction; water quality modeling;
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Times Cited By KSCI : 2  (Citation Analysis)
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1 Hass, C.N., and Karra, S.B. (1984) Kinetics of Waste chlorine demand exertion, Jour. Water Pollution Control Fedn., 56(2), pp.170-173
2 Ahn, J.C., Kim, Y.W., Lee, KS., Koo, J.Y. (2004) Residual chlorine management in water distribution systems using nerwork modelling techniques: case study in Seoul City, Water Science and Technology: Water Supply, IWA, 4(56), pp.421-429
3 Chambers, V,K, Creasy, J.D., and Joy, J.S. (1995) Modeling free and total chlorine decay in potable water distribution systems, J. Water Sci. Res. and Technol., 44(2), pp.60-69
4 Tomohiro Fuchigami, Katsuhiko Terashima (2003) Behavior of residual free chlorine in tap water treated by the advanced water treatment and the management in municipal water distribution system, Jour. JWWA, 72(6), pp.12-24
5 Vasconcelos, J. John, Boulos, F., Pau,l et al. (1996) Characterization and Modeling of Chlorine Decay in Distribution Systems, AWWARF
6 Wable, O., et al. (1991) Modeling chlorine concentration in a network and application to Paris distribution network, Proc., AWWARF and USEPA Conf. on Water Quality Modeling in Distribution System, Cincinati, Ohio, 4-5 February 1991, AWWARF, Denver
7 Clark, R.M., Rossman, L.A., and Wymer, L.J. (1995) Modeling distribution system water quality: Regulatory implications, J. Water Resour. Ping. And gmt. ASCE, Nov./Dec. 1995. pp. 423-428
8 Rossman, A.L., Clark, R.M., and Grayman, W.M. (1994) Modeling chlorine residuals in drinking water distribution systmes, J. Envir. Engrg., ASCE, 120(4), pp.803-820   DOI   ScienceOn
9 서울특별시 상수도연구소 (2004) 2003년도 수질조사분석보고서, pp.207-263
10 Powell, J.C, West, R.J, Hallam, B.N., Forster, F.C., Simms, J. (2000) Performance of various kinetic models for chlorine decay, J. Water Resour. Ping. And Mgnt. ASCE, Jan/Feb. 126(1), pp.13-20   DOI   ScienceOn
11 Jadan-Hecart, A., El Moher, A., Stitou, M., Bouillot, P., and Legube, B. (1992) The chlorine demand of a treated water, Water Research, 26(8), pp.1073-1084   DOI   ScienceOn
12 Vasconcelos, J.J, Rossman, A.L., Grayman, M.W., Boulos, F.P., Clark, M.R. (1997) Kinetics of Chlorine Decay, J. AWWA 89(7), pp.54-65
13 Ahn, J.C, Lee, S.W., Lee, G.S., Koo, J.Y. (2005) Predicting water pipe breaks using neural nerwork, Proc. Conf. on Efficient use and Management of urban water, Santiago Chile, 15-17 March 2005, IWA, pp.472-481
14 Mahmoud, M.S., Abdel-Lah, A.K. (2001) Assessing of Chlorine Dose in a Potable Water Distribution System: Study Case, Proceedings. Annual Conference of American Water Works Association. June 17-21,2001 Washington, D.C
15 Hua, F., West, F.R., Barker, R.A and Forster, C. F. (1999) Modelling of chlorine decay in municipal water supplies., Wat. Res. 33(12), pp.2735-2746   DOI   ScienceOn