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Developing a Model for Decision-Makers in Dynamic Modeling of Urban Water System Management

  • Keivan KarimlouEmail author
  • Nemat Hassani
  • Abdollah Rashidi Mehrabadi
  • Mohammad Reza Nazari
Article
  • 14 Downloads

Abstract

Water managers may modify many components of urban water systems to minimize water shortage. Since each modification activity has its own positive and negative effects, it is necessary to define an appropriate procedure to predict the consequences of each action. As the parameters of urban water supply and demand system have internal relationships in the time domain, a dynamic model is needed to forecast the result of changes and select the best modification activity. Here the Vensim® is applied as a modeling tool to choose the most effective water management activities in Tehran province. It has been found that the annual increase rate of water tariff by 16.4% and assigning 4.5% of revenue on reducing non-revenue water may be the most effective demand management activity to reduce water shortage in Tehran province. It has also been revealed that, even by implementing the most effective demand management activities in Tehran, the amount of required water in the next 10 years is more than the sustainable capacity of its resources and activities like seawater desalination are inevitable to prevent unsustainable use of water sources.

Keywords

Water System dynamics Price elasticity of demand Tariff Conservation devices Non-revenue water 

Notes

References

  1. Aher A, Chouthai A, Chandrasekar L, Corpening W, Russ L, Vijapur B (1991) East Bay municipal Utility District Water conservation study. Stevens Institute of Technology, OaklandGoogle Scholar
  2. Ahmad S, Prashar D (2010) Water Resour Manag 24:3371.  https://doi.org/10.1007/s11269-010-9611-2 CrossRefGoogle Scholar
  3. Anderson DL, Mulville-Friel D, Nero WL (1993) The impact of water conserving fixtures on residential water use characteristics in Tampa, Florida. Proceedings of Conserv 93:611–628Google Scholar
  4. Cederstrom D (1974) Cost analysis of groundwater supplies in the north Atlantic Region. Water Well J 28(8):39–43 AUGUST 1974. 3 TABGoogle Scholar
  5. Center of Statistic of Iran (2018) https://www.amar.org.ir/Portals/0/Files/.../b_ostani_85-95.xls. Accessed 2 Jan 2018
  6. Central Bank of Iran (2018) https://www.cbi.ir/page/16734.aspx. Accessed 28 May 2018
  7. Dong Q, Zhang X, Chen Y, Fang D (2019) Dynamic management of a water resources-socioeconomic-environmental system based on feedbacks using system dynamics. Water Resour Manag 33:2093–2108.  https://doi.org/10.1007/s11269-019-02233-8 CrossRefGoogle Scholar
  8. Edwards E, Bosworth R, Adams P, Baji V, Burrows A, Gerdes C, Jones M (2017) Economic insight from Utah’s water efficiency supply curve. Water 9(3):214CrossRefGoogle Scholar
  9. Erteghayee K (2016) Resistant economy meeting of CEO of Tehran regional water company. (in Persian). http://www.ostan-th.ir/mobile/?m_t=news&Type=News&TypeID=2&id=1262&BasesID=1. Accessed 10 Apr 2017
  10. Espey M, Espey J, Shaw WD (1997) Price elasticity of residential demand for water: a meta-analysis. Water Resour Res 33(6):1369–1374CrossRefGoogle Scholar
  11. Fibich G, Gavious A, Lowengart O (2005) The dynamics of price elasticity of demand in the presence of reference price effects. J Acad Mark Sci 33(1):66–78CrossRefGoogle Scholar
  12. Gleick PH, Haasz D, Henges-Jeck C, Srinivasan V, Wolff G, Cushing KK, Mann A (2003) Waste not, want not. The potential for urban water conservation in California. Pacific Institute, CaliforniaGoogle Scholar
  13. Howard G, Bartram J, Water S, World Health Organization (2003) Domestic water quantity, service level and health (no. WHO/SDE/WSH/03.02). World Health Organization, GenevaGoogle Scholar
  14. Hutton G, Haller L, Water S, World Health Organization (2004) Evaluation of the costs and benefits of water and sanitation improvements at the global level (no. WHO/SDE/WSH/04.04). World Health Organization, GenevaGoogle Scholar
  15. Jahani HR (2011) Role of ground water in the Tehran water supply. Ground Manag Pract 111–122Google Scholar
  16. Jahani HR, Reyhani M (2006) Role of ground-water in Tehran water crisis mitigation, proceedings of the international workshop on ground water for emergency situation. Water Research Institute, TehranGoogle Scholar
  17. Madani K (2014) Water management in Iran: what is causing the looming crisis? J Environ Stud Sci 4(4):315–328CrossRefGoogle Scholar
  18. Mayer PW, DeOreo WB, Optiz EM (1999) Residential end uses of water: American Water Works Association Research Foundation project report. Denver COGoogle Scholar
  19. Mirchi A, Madani K, Watkins D, Ahmad S (2012) Synthesis of system dynamics tools for holistic conceptualization of water resources problems. Water Resour Manag 26(9):2421–2442CrossRefGoogle Scholar
  20. Mohadjer P (2003) Residential ultra-low-flush toilet replacement program. Jordan Valley Water Conservancy District, West JordanGoogle Scholar
  21. Non-revenue Water Office of Water and Waste Water Company of Tehran (NRWO) (2017) Data that collected by the researchersGoogle Scholar
  22. Pour MT, Kalashami MK (2012) Applying CVM for economic valuation of drinking water in Iran. Int J Agric Manag Dev (IJAMAD) 2(1047-2016-85424):209–214Google Scholar
  23. Pugh C, Tomlinson J (1999) High efficiency washing machine demonstration, Bern, Kansas. Proceedings: American Water Works AssociationGoogle Scholar
  24. Qaiser K, Ahmad S, Johnson W, Batista J (2011) Evaluating the impact of water conservation on fate of outdoor water use: a study in an arid region. J Environ Manag 92(8):2061–2068CrossRefGoogle Scholar
  25. Sadr SK, Abdiyan M, Khodarahmi G (1994) Evaluation of water system functions of Tehran, water, 13, 47–58. (In Persian). http://www.sid.ir/fa/journal/ViewPaper.aspx?ID=26983. Accessed on 12 Feb 2018
  26. Semiat R (2000) Present and future. Water Int 25(1):54–65CrossRefGoogle Scholar
  27. Simonovic SP, Fahmy H, El-Shorbagy A (1997) The use of object-oriented modeling for water resources planning in Egypt. Water Resour Manag 11(4):243–261CrossRefGoogle Scholar
  28. Stave KA (2003) A system dynamics model to facilitate public understanding of water management options in Las Vegas, Nevada. J Environ Manag 67(4):303–313CrossRefGoogle Scholar
  29. Tajrishi M, Abrishamchi A (2005) Demand management of water resources in Iran, First congress of methods of preventing the waste in water resources (in Persian). https://www.civilica.com/Paper-SNRLP01-SNRLP01_057.html. Accessed on Oct 2016
  30. The World Bank (2018) http://www.worldbank.org/en/country/iran/overview. Accessed 26 June 2018
  31. The World Bank (1) (2017) https://data.worldbank.org/indicator/FP.CPI.TOTL.ZG. Accessed 1 Nov 2017
  32. The World Bank (2) (2017) https://data.worldbank.org/indicator/NY.GDP.MKTP.PP.CD. Accessed 1 Nov 2017
  33. US General Accounting Office (2000) Water infrastructure: Water-efficient plumbing fixtures reduce Water consumption and wastewater flowsGoogle Scholar
  34. Waste and Resources Action Program (2005) Cost-effective water saving devices and practices for industrial sites, http://www.wrap.org.uk. Accessed 20 Nov 2011
  35. World Health Organization (WHO, & UNICEF (2000) Global water supply and sanitation assessment 2000 report. World Health Organization (WHO)Google Scholar
  36. Xi X, Poh KL (2013) Using system dynamics for sustainable water resources management in Singapore. Proc Comput Sci 16:157–166CrossRefGoogle Scholar
  37. Yu PS, Yang TC, Kuo CM, Wang YT (2014) A stochastic approach for seasonal water-shortage probability forecasting based on seasonal weather outlook. Water Resour Manag 28:3905–3920.  https://doi.org/10.1007/s11269-014-0717-9 CrossRefGoogle Scholar
  38. Zhou Y, Tol RS (2005) Evaluating the costs of desalination and water transport. Water Resour Res 41(3)Google Scholar

Copyright information

© Springer Nature B.V. 2019

Authors and Affiliations

  1. 1.Faculty of Civil, Water & Environmental EngineeringShahid Beheshti UniversityTehranIran
  2. 2.Department of Natural Resources and Environmental Economics, Environmental Sciences Research InstituteShahid Beheshti University, G.C.TehranIran

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