Abstract
To evaluate non revenue water (NRW) and losses in water distribution networks a methodology is developed by applying “annual water balance” and “minimum night flow” analyses. In this approach the main NRW components such as leakage from reported and un-reported bursts and background leakage, with real or estimated data, enabling assessment of indices of leakage performance are evaluated. Also, a novel procedure is introduced in this paper that can determine the nodal and pipe leakage by using a hydraulic simulation model. Recognising the pressure dependency of leakage the total consumption is divided into two parts, one pressure dependent and the other independent of local pressure, and the hydraulic behaviour of the network is analyzed. A computer code is developed to evaluate all components of water losses based on the proposed methodology. For better representation of the results and management of the system, the outputs are exported to a GIS model. Using the capabilities of this GIS model, the network map and attribute data are linked and factors affecting network leakage are identified. In addition, the effects of pressure reduction are investigated. The model is illustrated by a real case study. The results show that the suggested model has overcome the shortcomings of the existing methodologies by accounting for the leakage and other NRW components in water distribution networks more realistically.
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Araujo LS, Coelho ST, Ramos HM (2003) Estimation of distributed pressure-dependent leakage and consumer demand in water supply networks. In: Maksimovic C, Butler D, Memon A (eds) The international conference on advances in water supply management. Swets & Zeitlinger, Lisses, pp 119–128
Araujo LS, Ramos HM, Coelho ST (2006) Pressure control for leakage minimization in water distribution systems management. J Water Resour Manage 20(1):133–149
AWWA, DWRWCO (1992) Water audit and leak detection guide book. American Water Works Association (California-Nevada Section) and Department of Water Resources Water Conservation Office, Water Conservation Guide Book No. 5
Burrows R, Mulreid G, Hayuti M (2003) Introduction of a fully dynamic representation of leakage into network modelling studies using EPANET. In: Maksimovic C, Butler D, Memon A (eds) Proceedings of the international conference on advances in water supply management. Swets & Zeitlinger, Lisses, pp 109–118
Dawoud AM, Darwish MM, El-Kady MM (2005) GIS based groundwater management model for western Nile delta. J Water Resour Manage 19(5):585–604
Farley M, Trow S (2003) Losses in water distribution networks. IWA, London
Germanopoulos G (1985) A technical note on the inclusion of pressure dependent demand and leakage terms in water supply network models. Civ Eng Syst 2:171–179, Sept 1985
Horlitz T (2007) The role of model interfaces for participation in water management. J Water Resour Manage 21(7):1091–1102
Jeffcoate P, Saravanapavan A (1989) The reduction and control of unaccounted-for water. World Bank Technical Paper, No. 72, Water Supply Operations Management Series, The World Bank, Washington, D.C.
Lambert A (1997) Pressure management/leakage relationships: theory, concepts and practical applications. In: Proceedings of minimizing leakage in water supply/distribution systems, IQPC Seminar, London, April 1997
Lambert AO, Brown TG, Takizawa M, Weimer D (1999) A review of performance indicators for real losses from water supply systems. AQUA 48(6):227–237
McKenzie RD (1999) SANFLOW user guide. South Africa Water Research Commission, WRC Report TT 109/99
McKenzie RD (2001) PRESMAC user guide. South Africa Water Research Commission, WRC Report TT 152/01
McKenzie RD, Lambert AO (2002) ECONOLEAK user guide. South Africa Water Research Commission, WRC Report TT169/02
McKenzie RD, Lambert AO, Kock JE, Mtshweni W (2002) User guide for the BENCHLEAK model. South Africa Water Research Commission, WRC Report TT 159/01
Tabesh M (1998) Implications of the pressure dependency of outflows on data management, mathematical modelling and reliability assessment of water distribution systems. PhD thesis, University of Liverpool, UK
Tabesh M, Delavar MR (2003) Application of integrated GIS and hydraulic models for unaccounted for water studies in water distribution systems. In: Maksimovic C, Butler D, Memon A (eds) Proceedings of the international conference on advances in water supply management. Swets & Zeitlinger, Lisses, pp 129–135
Tabesh M, Asadiani Yekta AH (2005) A software tool for non-revenue water calculations in urban water systems in conjunction with hydraulic and GIS models. In: Proceedings of the IWA leakage 2005 international conference, 12–14 Sept. Halifax, Canada, pp 212–222
Tabesh M, Asadiani Yekta AH, Burrows R (2005) Evaluation of unaccounted for water and real losses in water distribution networks by hydraulic analysis of the system considering pressure dependency of leakage. In: Savic O (ed) Proceedings of the international conference on advances in water supply management, 5–7 Sept 2005. University of Exeter, Exeter, UK, pp 125–130
Tabesh M, Tanyimboh TT, Burrows R (2002) Head driven simulation of water supply networks. Int J Eng, Transactions A: Basics 15(1):11–22
Tanyimboh TT, Tabesh M, Burrows R (2001) An appraisal of the source head method for calculating the reliability of water distribution networks. ASCE J Water Resources Planning and Management 127(4):206–213
Thornton J (2002) Water losses manual. McGraw-Hill, New York
UK Water Industry (1994) Managing leakage report E: interpreting measured night flows. WRc plc/Water Service Association/Water Companies Association, Swindon, UK
Vela A, Perez R, Espert V (1991) Incorporation of leakage in the mathematical model of a water distribution network. In: Proceedings of the 2nd international conference on computing methods in water resources, Computational Mechanics Publication, pp. 245–257
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Tabesh, M., Yekta, A.H.A. & Burrows, R. An Integrated Model to Evaluate Losses in Water Distribution Systems. Water Resour Manage 23, 477–492 (2009). https://doi.org/10.1007/s11269-008-9284-2
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DOI: https://doi.org/10.1007/s11269-008-9284-2
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