Skip to main content
Fachgebiete
Automobil + Motoren Bauwesen + Immobilien Business IT + Informatik Elektrotechnik + Elektronik Energie + Nachhaltigkeit Finance + Banking Management + Führung Marketing + Vertrieb Maschinenbau + Werkstoffe Versicherung + Risiko
DE
EN
Bücher
Zeitschriften
Themenseiten
Organisationspsychologie Projektmanagement Marketing Smart Manufacturing
Weitere Formate
Podcasts Webinare Technik Webinare Wirtschaft Kongresse Veranstaltungskalender Awards
Jetzt Einzelzugang starten
Zugang für Unternehmen
Referenzkunden
SLX-Digitalkonferenz: Zukunftswerkstatt 2024

Mehr Umsatz mit Top-Kontakten

Am 7. Mai erfahren Sie, wie Vertriebsteams Leadgenerierung, Leadnurturing und Leadstrategien effizient steuern können.
Erweiterte Suche
Anmelden
nach oben
Water Resources Management
Erschienen in: Water Resources Management 10/2018

26.05.2018

A Selective Literature Review on Leak Management Techniques for Water Distribution System

verfasst von: Aditya Gupta, K. D. Kulat

Erschienen in: Water Resources Management | Ausgabe 10/2018

Einloggen

Aktivieren Sie unsere intelligente Suche, um passende Fachinhalte oder Patente zu finden.

search-config
loading …

Abstract

Water Distribution System suffers from leakages causing social and economic costs. There is need of platform to manage water distribution system more efficiently by detecting, localizing and controlling the leakages even before or as soon as they occur, ensuring quality water services to the consumers. Since last two decades, high efforts have been made by researchers for the development of efficient leakage management techniques for reduction of water losses in distribution system. This paper provides a comprehensive analysis on leakage management techniques covering three aspects: leakage assessment, leakage detection and leakage control, with an objective to identify present challenges and future scope in their respected field. Role of smart water technologies for efficient leakages management in pipeline network is also examined and discussed. Conclusion is drawn regarding current leakage management techniques and proposals for future work and existing challenges are also outlined.
Nächster Artikel Hydrological Environmental Responses of LID and Approach for Rainfall Pattern Selection in Precipitation Data-Lacked Region

Sie haben noch keine Lizenz? Dann Informieren Sie sich jetzt über unsere Produkte:

Springer Professional "Technik"

Online-Abonnement

Mit Springer Professional "Technik" erhalten Sie Zugriff auf:

  • über 67.000 Bücher
  • über 390 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Maschinenbau + Werkstoffe




 

Jetzt Wissensvorsprung sichern!

Jetzt informieren

Springer Professional "Wirtschaft+Technik"

Online-Abonnement

Mit Springer Professional "Wirtschaft+Technik" erhalten Sie Zugriff auf:

  • über 102.000 Bücher
  • über 537 Zeitschriften

aus folgenden Fachgebieten:

  • Automobil + Motoren
  • Bauwesen + Immobilien
  • Business IT + Informatik
  • Elektrotechnik + Elektronik
  • Energie + Nachhaltigkeit
  • Finance + Banking
  • Management + Führung
  • Marketing + Vertrieb
  • Maschinenbau + Werkstoffe
  • Versicherung + Risiko

Jetzt Wissensvorsprung sichern!

Jetzt informieren
Literatur
Adedeji K, Hamam Y, Abe B, Abu-Mahfouz AM (2016) Wireless sensor network-based improved NPW leakage detection algorithm for real-time application in pipelines
Adedeji KB, Hamam Y, Abe BT, Abu-Mahfouz AM (2017) Towards achieving a reliable leakage detection and localization algorithm for application in water piping networks: an overview. IEEE Access 5:20272–20285CrossRef
Adedeji KB, Hamam Y, Abe BT, Abu-Mahfouz AM (2018) Pressure management strategies for water loss reduction in large-scale water piping networks: a review. In: Gourbesville P, Cunge J, Caignaert G (eds) Advances in Hydroinformatics. Springer Water, Singapore
Allen M, Preis A, Iqbal M, Srirangarajan S, Lim HB, Girod L, Whittle AJ (2011) Real-time in-network distribution system monitoring to improve operational efficiency. J Am Water Works Assoc 103(7):63–75CrossRef
Allen M, Preis A, Iqbal M, Whittle AJ (2012) Case study: a smart water grid in Singapore. Water Pract Technol 7(4)
Araujo LS, Ramos H, Coelho ST (2006) Pressure control for leakage minimisation in water distribution systems management. Water Resour Manag 20(1):133–149CrossRef
Arregui FJ, Cobacho R, Cabrera E Jr, Espert V (2011) Graphical method to calculate the optimum replacement period for water meters. J Water Resour Plan Manag 137(1):143–146CrossRef
Bakker M, Rajewicz T, Kien H, Vreeburg JHG, Rietveld LC (2014) Advanced control of a water supply system: a case study. Water Pract Technol 9(2):264–276CrossRef
Beal C, Flynn J (2014) The 2014 review of smart metering and intelligent water networks in Australia and New Zealand. Report prepared for WSAA by the Smart Water Research Centre, Griffith University
Beal CD, Flynn J (2015) Toward the digital water age: survey and case studies of australian water utility smart-metering programs. Util Policy 32:29–37CrossRef
Beal CD, Stewart RA (2013) Identifying residential water end uses underpinning peak day and peak hour demand. J Water Resour Plan Manag 140(7):04014008CrossRef
Beal C, Stewart R, Huang T, Rey E (2011) SEQ residential end use study. J Aust Water Assoc 38(1):80–84
Bokde N, Asencio-Cortés G, Martínez-Álvarez F, Kulat K (2017) PSF: introduction to R package for pattern sequence based forecasting algorithm. R J
Campbell E, Izquierdo J, Montalvo I, Pérez-García R (2016) A novel water supply network sectorization methodology based on a complete economic analysis, including uncertainties. Water 8(5):179CrossRef
Colombo AF, Karney BW (2005) Impacts of leaks on energy consumption in pumped systems with storage. J Water Resour Plan Manag 131(2):146–155CrossRef
Colombo AF, Karney BW (2009) Leaks and water use representation in water distribution system models: finding a working equivalence. J Hydraul Eng 135(3):234–239CrossRef
Colombo AF, Lee P, Karney BW (2009) A selective literature review of transient-based leak detection methods. J Hydro Environ Res 2(4):212–227CrossRef
Copeland C (2016) Water infrastructure financing: the water infrastructure finance and innovation act (WIFIA) program, United States environmental protect agency (USEPA), USA
Covas D, Ramos H (2010) Case studies of leak detection and location in water pipe systems by inverse transient analysis. J Water Resour Plan Manag 136(2):248–257CrossRef
Covas D, Ramos H, Almeida AB (2005) Standing wave difference method for leak detection in pipeline systems. J Hydraul Eng ASCE 131(120)
Covelli C, Cimorelli L, Cozzolino L, Della Morte R, Pianese D (2016) Reduction in water losses in water distribution systems using PRVs. Water Sci Technol Water Supply 16(4):1033–1045CrossRef
Creaco E, Pezzinga G (2014) Multiobjective optimization of pipe replacements and control valve installations for leakage attenuation in water distribution networks. J Water Resour Plan Manag 141(3):04014059CrossRef
Dai PD, Li P (2014) Optimal localization of pressure reducing valves in water distribution systems by a reformulation approach. Water Resour Manag 28(10):3057–3074CrossRef
De Marchis M, Fontanazza CM, Freni G, Notaro V, Puleo V (2013) Experimental evidence of leaks in elastic pipes. Water Resour Manag 30(6):2005–2019CrossRef
De Paola F, Galdiero E, Giugni M (2016) A jazz-based approach for optimal setting of pressure reducing valves in water distribution networks. Eng Optim 48(5):727–739CrossRef
Eck BJ, Arandia E, Naoum-Sawaya J, Wirth F (2014) A simulation-optimization approach for reducing background leakage in water systems. Procedia Eng 89:59–68CrossRef
Endo A, Tsurita I, Burnett K, Orencio PM (2017) A review of the current state of research on the water, energy, and food nexus. J Hydrol 11:20–30
Fan C, Sun F, Yang L (2005) Investigation on nondestructive evaluation of pipelines using infrared thermography. In: Infrared and Millimeter Waves and 13th International Conference on Terahertz Electronics, 2005. IRMMW-THz 2005. The Joint 30th International Conference on (Vol. 2, pp. 339–340). IEEE
Farah E, Shahrour I (2017) Leakage detection using smart water system: combination of water balance and automated minimum night flow. Water Resour Manag 31(15):4821–4833CrossRef
Farley M (2008) Finding ‘difficult’ leaks. International Water Association Specialist Group – Efficient Operation and Management. Available from: http://​www.​iwaom.​org. Accessed 9 Oct 17
Farley M, Trow S (2007) Losses in water distribution networks; a practitioner’s guide to assessment, monitoring, and control, 2nd edn. International Water Association Publishing, UK
Ferrante M, Brunone B (2003) Pipe system diagnosis and leak detection by unsteady-state tests. 1. Harmonic analysis. Adv Water Resour 26(1):95–105CrossRef
Ferrante M, Brunone B, Meniconi S (2007) Wavelets for the analysis of transient pressure signals for leak detection. J Hydraul Eng 133(11):1274–1282CrossRef
Ferrante M, Brunone B, Meniconi S, Karney BW, Massari C (2014) Leak Size, Detectability and Test Conditions in Pressurized Pipe Systems: How Leak Size and System Conditions Affect the Effectiveness of Leak Detection Techniques. Water Resources Management 28(13):4583–4598CrossRef
Fletcher R (2008) SmartBallTM–a new approach in pipeline leak detection. In: Proceedings of the International Pipeline Conference. Calgary, Alberta, Canada
Fritsch O (2017) Integrated and adaptive water resources management: exploring public participation in the UK. Reg Environ Chang 17(7):1933–1944CrossRef
Girard M, Stewart RA (2007) Implementation of pressure and leakage management strategies on the gold coast, Australia: case study. J Water Resour Plan Manag 133(3):210–217CrossRef
Giustolisi O, Berardi L, Laucelli D, Savic D, Kapelan Z (2015) Operational and tactical management of water and energy resources in pressurized systems: competition at WDSA 2014. J Water Resour Plan Manag 142(5):C4015002CrossRef
Gomes R, Sousa J, Sá Marques A (2013) The influence of pressure/leakage relationships from existing leaks in the benefits yielded by pressure management. In: 8th international conference of European Water Resources Association
Goodwin SJ (1980) The results of the experimental programme on leakage and leakage control. Water Research Centre. Technical Report 154
Gupta A, Bokde N, Marathe D, Kulat K (2016) Leakage Reduction in Water Distribution Systems with Efficient Placement and Control of Pressure Reducing Valves Using Soft Computing Techniques. Eng Technol Appl Sci Res 7(2):1528–1534
Gupta A, Bokde N, Marathe D, Kulat KD (2017) Optimization techniques for leakage management in urban water distribution networks. Water Sci Technol Water Supply 17(6):1638–1652CrossRef
Gupta AD, Bokde N, Kulat KD (2018) Hybrid leakage management for water network using PSF algorithm and soft computing techniques. Water Resour Manag 32(3):1133–1151CrossRef
Haghighi H, Covas C (2012) Modified inverse transient analysis for leak detection of pressurized pipes. BHR group pressure surges
Harrison B, Gregory W (2013) Managing water utility financial risks through third‐party index insurance contracts. Water Resour Res 49(8):4939–4951
Hmiltom S (2011) Water balance-next step. Water Utility Journal, E.W. publications, p 3–11
Hope R, Foster T, Money A, Rouse M, Money N, Thomas M (2011). Smart water systems. Project report to UK DFID, April 2011, Oxford University, Oxford, UK
Kapelan ZS, Savic DA, Walters GA (2003) A hybrid inverse transient model for leakage detection and roughness calibration in pipe networks. J Hydraul Res 41(5):481–492CrossRef
Karwot J, Kaźmierczak J, Wyczółkowski R, Paszkowski W, Przystałka P (2016) Smart water in smart city: a case study. In: Proceedings of SGEM 16th International Scientific Conference on EARTH&GEOSCIENCES, book (Vol. 3, p 851–858)
Kayaalp F, Zengin A, Kara R, Zavrak S (2017) Leakage detection and localization on water transportation pipelines: a multi-label classification approach. Neural Comput & Applic 28(10):2905–2914CrossRef
Khadam MA, Shammas NK, Al Y (1991) Water Losses from Municipal Utilities and their impacts. Water International 16(4):254–261CrossRef
Khulief YA, Khalifa A, Mansour RB, Habib MA (2011) Acoustic detection of leaks in water pipelines using measurements inside pipe. J Pipeline Syst Eng Pract 3(2):47–54CrossRef
Kim SH (2005) Extensive development of leak detection algorithm by impulse response method. J Hydraul Eng 131:201–208CrossRef
Kouchi DH, Esmaili K, Faridhosseini A, Sanaeinejad SH, Khalili D, Abbaspour KC (2017) Sensitivity of calibrated parameters and water resource estimates on different objective functions and optimization algorithms. Water 9(6):384CrossRef
Krampe F (2017) Water for peace? Post-conflict water resource management in Kosovo. Coop Confl 52(2):147–165CrossRef
Kurtz W, Lapin A, Schilling OS, Tang Q, Schiller E, Braun T, Franssen HJH (2017) Integrating hydrological modelling, data assimilation and cloud computing for real-time management of water resources. Environ Model Softw 93:418–435CrossRef
Lambert A (1994) Accounting for losses: the bursts and background concept. J IWEM 8, April
Lambert A (2001) What do we know about pressure-leakage relationships in distribution systems. IWA Conf in Systems approach to leakage control and water distribution system management
Lambert AO (2003) Assessing non-revenue water and its components - a practical approach. Water 21 - Magazine of the International Water Association, Vol. August 2003, p 50–51
Lambert AO, Fantozzi M (2010) Recent developments in pressure management. Proc., 6th IWA Water Loss reduction Specialist Conf.,IWA, Hague, The Netherlands
Lambert A, Hirner W 2000 Losses from water supply systems: Standard terminology and recommended performance measures. Available from: www.​iwahq.​org
Lambert A, Charalambous B, Fantozzi M, Kovac J, Rizzo A, St John SG (2014) 14 years’ experience of using IWA best practice water balance and water loss performance indicators in Europe. Proceedings of IWA Specialized Conference: Water Loss 2014, Austria, Vienna, 30 March – 2 April, 2014
Lee SJ, Lee G, Suh JC, Lee JM (2015) Online burst detection and location of water distribution systems and its practical applications. J Water Resour Plan Manag 142(1):04015033CrossRef
Liemberger R., Farley M (2004) Developing a non-revenue water reduction strategy, part 1: investigating and assessing water losses. In: Paper to IWA Congress
Liemberger R, McKenzie R (2003) Aqualibre: a new innovative water balance software, presented at the IWA/AWWA conference on efficient management of urban water supply, Tenerife
Liggett JA, Chen LC (1994) Inverse transient analysis in pipe networks. ASCE Journal of Hydraulic Engineering 120(8):934–955CrossRef
Lin HY, Lin BW, Li PH, Kao JJ (2015) The application of the cluster identification method for the detection of leakages in water distribution systems. Int J Environ Sci Technol 12(9):2687–2696CrossRef
Liou JCP, Hall RJ, McMahon MC (2003) Hazardous liquid leak detection techniques and processes. General Physics Corporation. Report No. DTRS56–02-D-70037-01
Maier HR, Kapelan Z, Kasprzyk J, Kollat J, Matott LS, Cunha MC, Dandy GC, Gibbs MS, Keedwell E, Marchi A (2014) Evolutionary algorithms and other metaheuristics in water resources: current status, research challenges and future directions. Environ Model Softw 62:271–299CrossRef
Martini A, Troncossi M, Rivola A (2016) Leak detection in water-filled small-diameter polyethylene pipes by means of acoustic emission measurements. Appl Sci 7(1):2CrossRef
Meniconi S, Brunone B, Ferrante M, Massari C (2011) Transient tests for locating and sizing illegal branches in pipe systems. J Hydroinf 13(3):334–345CrossRef
Michael D (2007) Report on Infrastructure Leakage Index (ILI) as a Regulatory and ProviderTool
Mounce SR, Boxall JB, Machell J (2007) An artificial neural network/fuzzy logic system for DMA flow meter data analysis providing burst identification and size estimation. Water management challenges in global change, p 313–320
Mounce SR, Pedraza C, Jackson T, Linford P, Boxall JB (2015) Cloud based machine learning approaches for leakage assessment and management in smart water networks. Procedia Eng 119:43–52CrossRef
Mutikanga HE, Sharma SK, Vairavamoorthy K (2011) Investigating water meter performance in developing countries: a case study of Kampala, Uganda. Water SA 37(4):567–574
Mutikanga HE, Sharma SK, Vairavamoorthy K (2013) Methods and tools for managing losses in water distribution systems. J Water Resour Plan Manag 139(2):166–174CrossRef
Nazif S, Karamouz M, Tabesh M, Moridi A (2010) Pressure management model for urban water distribution networks. Water Resour Manag 24(3):437–458CrossRef
Nicolini M, Zovatto L (2009) Optimal location and control of pressure reducing valves in water networks. J Water Resour Plan Manag 135(3):178–187CrossRef
Nicolini M, Giacomello C, Deb K (2010) Calibration and Optimal Leakage Management for a Real Water Distribution Network. J Water Resour Plan Manag 137(1):4 134–142
Ozevin D, Harding J (2012) Novel leak localization in pressurized pipeline networks using acoustic emission and geometric connectivity. Int J Press Vessel Pip 92:63–69CrossRef
Petersen-Perlman JD, Veilleux JC, Wolf AT (2017) International water conflict and cooperation: challenges and opportunities. Water Int 42(2):105–120CrossRef
Pilcher R, Hamilton S, Chapman H, Field D, Ristovski B, Stapely S (2007) Leak location and repairs, guideline notes by IWA, version 1. International Water Association, London
Pires A, Morato J, Peixoto H, Botero V, Zuluaga L, Figueroa A (2017) Sustainability assessment of indicators for integrated water resources management. Sci Total Environ 578:139–147CrossRef
Plath M, Mathias E, Knut W (2014) Energy efficiency and energy saving in the German water industry. Water Pract Technol 9(2):256–263CrossRef
Pretner A, Belltin A, Saniz L (2008) Application of monitoring and information technologies to optimize asset management. Water Asset Manage Int 4(4):14–19
Puust R, Kapelan Z, Savic DA, Koppel T (2010) A review of methods for leakage management in pipe networks. Urban Water J 7(1):25–45CrossRef
Ramos H, Tamminen S, Covas D (2009) Water supply system performance for different pipe materials part II: sensitivity analysis to pressure variation. Water Resour Manag 23(2):367–393CrossRef
Roshani E, Filion Y (2014) WDS leakage management through pressure control and pipes rehabilitation using an optimization approach. Procedia Eng 89:21–28CrossRef
Savić D, Ferrari G (2014) Design and performance of district metering areas in water distribution systems. Procedia Eng 89:1136–1143CrossRef
Shafiee ME, Berglund A, Berglund EZ, Brill ED Jr, Mahinthakumar G (2015) Parallel evolutionary algorithm for designing water distribution networks to minimize background leakage. J Water Resour Plan Manag 142(5):C4015007CrossRef
Shamloo H, Haghighi A (2009) Leak detection in pipelines by inverse backward transient analysis. J Hydraul Res 47(3):311–318CrossRef
Skulovich O, Perelman L, Ostfeld A (2014) Modeling and optimizing hydraulic transients in water distribution systems. Procedia Eng 70:1558–1565CrossRef
Spiliotis M, Tsakiris G (2012) Water distribution network analysis under fuzzy demands. Civ Eng Environ Syst 29(2):107–122CrossRef
Srirangarajan S, Allen M, Preis A, Iqbal M, Lim HB, Whittle AJ (2013) Wavelet-based burst event detection and localization in water distribution systems. J Signal Process Syst 72(1):1–16CrossRef
Stoianov I, Nachman L, Madden S, Tokmouline T, Csail M (2007) PIPENET: a wireless sensor network for pipeline monitoring. In: Information Processing in Sensor Networks, 2007. IPSN 2007. 6th International Symposium on, p 264–273. IEEE
Tabesh M, Yekta AA, Burrows R (2009) An integrated model to evaluate losses in water distribution systems. Water Resour Manag 23(3):477–492CrossRef
Taha AW, Sharma S, Kennedy M (2016) Methods of assessment of water losses in water supply systems: a review. Water Resour Manag 30(14):4985–5001CrossRef
Tang X, Liu Y, Zheng L, Ma C, Wang H (2009) Leak detection of water pipeline using wavelet transform method. In environmental science and information application technology, 2009. ESIAT 2009. International conference on (Vol. 2, p 217–220). IEEE
Thornton J, Lambert A (2005) Progress in practical prediction of pressure: leakage, pressure: burst frequency and pressure: consumption relationships. In: Proceedings of IWA Special Conference'Leakage, p 12–14
Treuer G, Koebele E, Deslatte A, Ernst K, Garcia M, Manago K (2017) A narrative method for analyzing transitions in urban water management: the case of the Miami-Dade water and sewer department. Water Resour Res 53(1):891–908CrossRef
Tucciarelli T, Criminisi A, Termini D (1999) Leak analysis in pipeline systems by means of optimal valve regulation. J Hydraul Eng 125(3):277–285CrossRef
United States Environmental Protection Agency (EPA) (2013) Water audits and water loss control for public water systems. Office of Water (4606 M), EPA 816-F-13-002
Van Zyl JE, Cassa AM (2013) Modeling elastically deforming leaks in water distribution pipes. J Hydraul Eng 140(2):182–189
Vítkovský JP, Simpson AR, Lambert MF, Wang XJ (2001) An experimental verification of the inverse transient technique. In: 6th Conference on Hydraulics in Civil Engineering, p 28–30
Walski T, Bezts W, Posluszny ET, Weir M, Whitman BE (2006) Modeling leakage reduction through pressure control. J Am Water Works Assoc 98:147–155CrossRef
Wang XJ, Lambert MF, Simpson AR, Liggett JA, Vıtkovský JP (2002) Leak detection in pipelines using the damping of fluid transients. J Hydraul Eng 128(7):697–711CrossRef
Wu ZY, Sage P, Turtle D (2009) Pressure-dependent leak detection model and its application to a district water system. J Water Resour Plan Manag 136(1):116–128CrossRef
Yazdekhasti S, Piratla KR, Atamturktur S, Khan AA (2017) Novel vibration-based technique for detecting water pipeline leakage. Struct Infrastruct Eng 13(6):731–742CrossRef
Ye G, Fenner RA (2010) Kalman filtering of hydraulic measurements for burst detection in water distribution systems. J Pipeline Syst Eng Pract 2(1):14–22CrossRef
Zan TTT, Wong KJ, Lim HB, Whittle AJ (2011) A frequency domain burst detection technique for water distribution systems. In: Sensors, 2011 I.E. (p 1870–1873) IEEE
Zan TTT, Lim HB, Wong KJ, Whittle AJ, Lee BS (2014) Event detection and localization in urban water distribution network. IEEE Sensors J 14(12):4134–4142CrossRef
Zecchin AC, Lambert MF, Simpson AR, White LB (2006) Laplace-domain comparison of linear modelsof a reservoir-pipe-valve system with a leak. In: Proceedings of the 8th annual water distribution systems analysis symposium. Cincinnati, OH, USA
Metadaten
Titel
A Selective Literature Review on Leak Management Techniques for Water Distribution System
verfasst von
Aditya Gupta
K. D. Kulat
Publikationsdatum
26.05.2018
Verlag
Springer Netherlands
Erschienen in
Water Resources Management / Ausgabe 10/2018
Print ISSN: 0920-4741
Elektronische ISSN: 1573-1650
DOI
https://doi.org/10.1007/s11269-018-1985-6

Weitere Artikel der Ausgabe 10/2018

Water Resources Management 10/2018 Zur Ausgabe

OriginalPaper

A Spatially Explicit Multi-Criteria Analysis Method on Solving Spatial Heterogeneity Problems for Flood Hazard Assessment

OriginalPaper

The Application of Mixture Distribution for the Estimation of Extreme Floods in Controlled Catchment Basins

OriginalPaper

Spatio-Temporal Multi-Criteria Optimization of Reservoir Water Quality Monitoring Network Using Value of Information and Transinformation Entropy

OriginalPaper

Unravelling Stakeholder Perceptions to Enable Adaptive Water Governance in Dryland Systems

OriginalPaper

Synchronizing Artificial Intelligence Models for Operating the Dam and Reservoir System

OriginalPaper

Forecasting Daily Streamflow for Basins with Different Physical Characteristics through Data-Driven Methods