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http://dx.doi.org/10.3741/JKWRA.2007.40.5.397

Estimation of Solid Deposition in Sewer Systems using MOUSE Model  

Lee, Jae-Soo (Dept. of Civil & Envir. Eng., Jeonju Univ.)
Publication Information
Journal of Korea Water Resources Association / v.40, no.5, 2007 , pp. 397-407 More about this Journal
Abstract
The deposition of sewer solids during dry weather in combined sewer systems results in a loss of flow capacity that may restrict flow and cause a local flooding and enhanced solids deposition. In order to solve these problems and to manage sewer systems efficiently, development of estimation equations for solid sediments In sewer systems is needed. However, estimation of solid sediments has performed using specific methods such as computer model before the development of estimation equations. In this study, solid sediments in sewer systems were estimated using MOUSE model for Gunja drainage basin in Korea and the estimated results were verified using estimation equations developed by the U.S. Environmental Protection Agency. As results, the estimated values using MOUSE model are smaller than that of equations developed in 1977 but greater than that of equations developed in 1984. Although the comparison between simulated and measured solid deposition is difficult due to the absent of measurement data, the estimated values using MOUSE model is reliable and can be used to develop estimation equations for solid sediment in Gunja drainage basin.
Keywords
combined sewer systems; estimated solid deposition; MOUSE model;
Citations & Related Records
Times Cited By KSCI : 2  (Citation Analysis)
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1 DHI (2003). MOUSE TRAP User Manual, DHI Water & Environment, Horsolm, Denmark
2 DHI (2003). MOUSE TRAP Technical Reference : Sediment Transport Module, DHI Water & Environment, Horsolm, Denmark
3 DHI (2004). MOUSE User Guide, DHI Water & Environment, Horsolm, Denmark
4 DHI (2004). MOUSE Reference Manual, DHI Water & Environment, Horsolm, Denmark
5 Bertrands-Krajewski, J.-L., Champisano, A., Creaco, E. and Modica, C. (2004). 'Experimental Study and Modeling of the Hydraulic Behavior of a Hydrass Flushing Gate.' Proceedings of Novatech 2004, Lyon, France, 6-10 June 2004, Vol. 1, pp. 557-564
6 Coghlan, B.P., Ashley, R.M. and Jefferies,, C. (1993). 'An Appraisal of Suspended Sediment Transport Modeling Methods for an Interceptor Sewer.' Wat. Sci. Tech., 27(5-6), 81-89   DOI
7 Coleman, N.L. (1982). 'Discussion of Paper 16313.' J. of the Hydraulics Division, ASCE, 108(1), pp. 164-165
8 이재수 (2006). '합류식 관거 내 고형물 퇴적량 산정기법 분석', 한국수자원학회논문집, 제39권 제5호, 한국수자원학회, pp. 405-415   과학기술학회마을   DOI
9 이재수, 박무종 (2006). '합류식 관거 유지관리를 위한 하수 및 지표면 고형물 부하량 산정', 한국수자원학회논문집, 제39권 제6호, 한국수자원학회, pp. 533-544   과학기술학회마을   DOI
10 Ackers, J.C., Butler, D. and May, R. (1996). 'Design of Sewer to Control Sediment Problem' London(UK), CIRIA, project report. 141. pp. 181
11 Ackers, P. and White, W.R. (1973). 'Sediment Transport: New Approach and Analysis.' Journal of the Hydraulics Division, ASCE, 99(11), pp. 2041-2060
12 Arthur, S., Ashley, R.M. and Nalluri, C. (1996). 'Near Bed Solids Transport in Sewers.' Wat. Sci. Tech, 33(9), pp. 69-76   DOI   ScienceOn
13 Ashley, R.M. and Crabtree, R.W. (1992). 'Sediment Origins, Deposition and Build-up in Combined Sewer Systems.' Wat. Sci. Tech., 25(8), pp. 1-12
14 Ashley, R, M,, Bertrand-Krajewski, J.-L., Hvitved-Jacobsen, T. and Verbanck, M. (2004). Solids in Sewers : Characteristics, Effects and Control of Sewer Solids and Associated Pollutants, Scientific and Technical Report No. 14, IWA Publishing, UK
15 Pisano, W.C. and Queiroz, C.S. (1984). Procedures for Estimating Dry Weather Sewage Inline Pollutant Deposition-Phase II, Report No. EPA-600/2-84/020(NTIS PB 84141 -480), U.S. Environmental Protection Agency, Municipal Environmental Research Laboratory, Cincinnati. OH
16 Bachoc, A. (1992). 'Location and General Characteristics of Sediment Deposits into Man-entry Combined Sewers.' Wat. Sci. Tech., 25(8), pp. 47-55   DOI
17 한국수도협회 (1998), 하수도시설기준
18 Startor, J.B. and Biyd, G.B. (1972). Water Pollution Aspects of Street Surface Contaminants, Report No. EPA-R2-72-081
19 Pitt, R. and Field, R. (1977) 'Water Quality Effect from Urban Runoff', American Water Works Association J., 69(8), pp. 432-436   DOI
20 Rouse, H. (1937). 'Modern Conceptions of the Mechanics of Turbulence.' Transactions of ASCE, Vol. 102, pp. 463-543
21 Meyer-Peter, E. and Muller, R. (1948). 'Fomulas for Bed-load Transport.' IAHR-Meeting Stockholm, Zahlentabellen zu den Geschiebetriebsversuchen der Versuchsanstalt fur Wasserbau und Erdbau an der ETH Zurich
22 Pisano, W.C. and Queiroz, C.S. (1977). Procedures for Estimating Dry Weather Deposition in Sewerage Systems. Cincinnati, USEPA, Report No. EPA-600/2-77/120
23 Fan, C.Y. (2004). Sewer Sediment and Control: Management Practices Reference Guide, Report No. EPA/600/R-04/059, U.S. Environmental Protection Agency, Cincinnati. OH
24 Manning, M.J., Sullivan, R.H. and Kipp, T.M. (1977). Nationwide Evaluation of Combined Sewer Overflows and Urban Stormwater Discharges : Vol. III, Characterization of Discharges, Report No. EPA-600/2-77-064C
25 Lin, H.S. and Le Guennec, B. (1996). 'Sediment Transport Modelling in Combined Sewer.' Wat. Sci. Tech., 33(9), pp. 61-67   DOI   ScienceOn
26 Fan, C.Y., Field, R. and Lai. F.-H. (2003). 'Sewer Sediment Control: Overview of an Environmental Protection Agency Wet-Weather Flow Research Program.' J. Hydraul, Eng., ASCE, 129(4), pp. 253-259   DOI   ScienceOn
27 Laplace, D. (1991). Dynamique du depot en collecteur d'assainssement, PhD thesis, Institue National Polytechnique/ENSHEEIT, Toulouse, France, pp. 202
28 Elliott, A.H. and Trowsdale, S.A. (2006). 'A Review of Models for Low Impact Urban Stormwater Drainage', Environmental Modeling & Software, xx(2006) 1-12