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Study of the Water supply in the Megapolis: System dynamics approach
Journal Title: RIVISTA DI STUDI SULLA SOSTENIBILITA' 
Author/s: Tatiana V. Bitkova, Oksana F. Volkova 
Year:  2019 Issue: Language: Italian 
Pages:  16 Pg. 109-124 FullText PDF:  418 KB
DOI:  10.3280/RISS2019-002009
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The problems of water supply in Ukraine are analysed and actual tendencies in the factors influencing the state of water resources are evaluated. The main accent is done on the problems of water resources management in megapolices, using Kharkiv (about 1.5 million inhabitants) as an example. The main problems for Kharkiv are the state of water mains and drinking water quality assurance. Analysis of the experience of applying the system dynamics (SD) methodology for analysing water supply problems confirms its adequacy. The authors propose an SD model, which displays the basic dependability of the factors that determine water intake, water supply, discharge and treatment in Kharkiv. When parameter-izing the module, real data was used. Simulation results are life-like and it’s possi-ble to conduct computer experiments for decision support.
Keywords: Water resources management, water supply/discharge system, system dynamic model.

  1. Crawford H.H., Linsley R.K. (1966). Digital Simulation in Hydrology: Stanford Watershed Model IV. Technical Report No. 39, Department of Civil and Environmental Engineering, Stanford University, Stanford.
  2. Economopoulou M. A., Economopoulos A. P. (2003). Expert system for municipal wastewater management with emphasis in reuse. Water Science and Technology: Water Supply, 3(4): 79-88. IWA Publishing.
  3. International Conference of the System Dynamics Society (2010-2018): Seul, 2010; Washington, 2011; St. Gallen, 2012; Cambridge, 2013; Delft, 2014; Cambridge, 2015; Delft, 2016; Cambridge, 2017; Reykjavík, 2018. -- texts are available at: https://www.systemdynamics.org/past-conferences (date of access 10.09.2019).
  4. On the water management situation in Ukraine as of July 30, 2019. -- text available at: https://www.davr.gov.ua/pro-vodogospodarsku-obstanovku-v-ukraini-stanom-na-30-lipnya-2019-roku (date of access 10.09.2019).
  5. Simonovic S.P., Rajasekaram V. (2004). Integrated Analyses of Canada’s Water Resources: A System Dynamics Approach. Canadian Water Resources, 29(4): 223-250.
  6. The United Nations world water development report, 2015: water for a sustainable world. -- text is available at: https://unesdoc.unesco.org/ark:/48223/pf0000231823 (date of access 13.09.2019).
  7. Wang S., He C., Pan Y., Yang M. (2006). Research for Scenarios Simulation of Urban Land Use Change in Beijing by System Dynamics Model under Water Restriction from 2004 to 2020. Journal of Natural Resources, 21(4): 535-544.
  8. Water resourses of Kharkiv region (2019). -- text is available at: http://www.vodgosp.kharkov.ua/vodni-resursi/ (date of access 13.09.2019).
  9. Winz I., Brierley G. (2007). The Use of System Dynamics Simulation in Integrated Water Resources Management, School of Geography, Geology and Environmental Science, University of Auckland, Auckland New Zealand, p. 1-26.
  10. World economic disproportionality: particularities, tendencies, impact on the economy of Ukraine: scientific report (2012)./ed. NAS of Ukraine cor. member L.V. Shinkaruk. – Kyiv, 2012. – 152 p., p. 49.
  11. Yakovlev V.V. (2015). Sources of Kharkov water supply and perspectives of using radial intakes. Problems of environmental protection and ecological safety, 37: 106-126. -- Text is available at: http://nbuv.gov.ua/UJRN/Ponp_2015_37_12.
  12. Zarghami M., Rahmani M.A. (2015). Toward Effective Water Diplomacy by Using System Dynamics: Case Study, Department of Civil and Environmental Eng. Tufts University, Medford, MA 02155 USA, p. 46-52.
  13. Zhuang Y., Zhang Q. (2013). Integrated Water Resources Management Incorporating Water Quality, Energy Consumption and Ecological Requirement, University of South Florida, USA, p. 1-11.

Tatiana V. Bitkova, Oksana F. Volkova, in "RIVISTA DI STUDI SULLA SOSTENIBILITA'" 2/2019, pp. 109-124, DOI:10.3280/RISS2019-002009

   

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