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About one Approach to Solve the Problem of Management of the Development and Operation of Centralized Water-Supply Systems

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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
One of the approaches to solve the problem of resource and energy saving in centralized water-supply systems by reducing the total excess pressure in water-supply nodes is examined in the present work. The implementation of this approach is provided due to re-engineering of water-supplies by their zoning and optimal flux-distribution in the water-supplies. Mathematical formulations of the problems to be examined and efficient algorithms of their solving are presented.
Twórcy
autor
  • Kharkiv National University of Radio Electronics, Lenin Ave, 14, Kharkov, 61166, Ukraine
  • Kharkiv National University of Radio Electronics, Lenin Ave, 14, Kharkov, 61166, Ukraine
Bibliografia
  • 1. Abramov N. 1974. Water Supply. -Moscow, Stroyizdat, 481. (in Russian)
  • 2. Burgschweiger J., Bernd Gnadig B., Steinbach, M. C. 2004. Optimization Models for Operative Planning in Drinking Water Networks. Konrad-Zuse-Zentrum fur Informationstechnik Berlin, ZIB-Report.
  • 3. Burgschweiger J., Bernd Gnadig B., Steinbach M. C. 2005. Nonlinear Programming Techniques for Operative Planning in Large Drinking Water Networks. Konrad-Zuse-Zentrum fur Informationstechnik Berlin, ZIB-Report.
  • 4. Chupin R. V., Melehov E. S. 2011. The Theory and Practice of Modeling and Optimization of Water and Wastewater. – Irkutsk, Publisher Irkutsk State Technical University, 323. (in Russian)
  • 5. Dolinskii A., Draganov B., Kozirskii V. 2012. Nonequilibrium State of Engineering systems // ECONTECHMOD An International Quarterly Journal On Economics In Technology, New Technologies And Modelling Processes. Vol. 1, № 1, 33–34.
  • 6. Evdokimov A.G., Dubrovsky V.V., Tevyashev A.D. 1979. Flow Distribution in the Network Еngineering. - Moscow, Stroyizdat, 199. (in Russian)
  • 7. Evdokimov A.G., Tevyashev A.D. 1980. Operational Management of Load Flow in Engineering Networks. - Kharkiv, High School, 144. (in Russian)
  • 8. Hoeve W.-J. 2005. Operations Research Techniques in Constraint Programming. -Institute for Logic, Language and Computation Universiteit van Amsterdam, 154.
  • 9. Calculation and Selection Pressure Regulator "behind". [Online resource]. – Access mode: http://www.ktto.com.ua/ calculation/rdp.
  • 10. Karelin V.Y., Minayev A.V. 1986. Pumps and pumping stations. - Moscow, Stroyizdat, 320. (in Russian)
  • 11. Leznov B.C. 2006. Energy saving and adjustable drive for pump and blower installations. - Moscow, Energoatomizdat, 358. (in Russian)
  • 12. Lipták B. 2009. Pumping Station Optimization. Control Promoting Excellence in Process Automation, 12–19. (in Russian)
  • 13. Lobachev P.V. 1983. Pumps and pumping stations. - Moscow, Stroyizdat, 191. (in Russian)
  • 14. Mathews J.H., Fink K.K. 2004. Numerical Methods Using Matlab., 4th Edition, Prentice-Hall Inc. Upper Saddle River, New Jersey, USA, 440.
  • 15. Pulido-Calvo I. Gutiérrez-Estrada J.C. 2011. Selection and Operation of Pumping Stations of Water Distribution Systems // Environmental Research Journal. Nova Science Publishers, 1-20.
  • 16. Ruuskanen A. 2007. Optimization of Energy Consumption in Wastewater Pumping. Lappeenranta University of Technology Department of Energy- and Environmental Technology, 99.
  • 17. Rybytska O., Vovk M. 2014. An Application of the Fuzzy Set Theory and Fuzzy Logic to the Problem of Predicting the Value of Goods Rests // ECONTECHMOD An International Quarterly Journal On Economics In Technology, New Technologies And Modelling Processes. Vol. 3, №2. 65-69.
  • 18. Steinbach M.C. 2001. General Information Constraints in Stochastic Programs. Berlin: ZIB, 5.
  • 19. Steinbach M.C. 2001. Tree-Sparse Convex Programs. Konrad-Zuse-Zentrum fur Informationstechnik Berlin, ZIB-Report, 22. 20. Tevyashev A.D., Matviyenko O.I. 2014. Stochastic Model and Method of Zoning Water Networks. Kharkov: Eastern-Europian Journal of Enterprise Technologies, 1 (67), 17–24. (in Russian) 21. Tevyashev A.D., Matviyenko O.I., Nikitenko G.V. 2014. Stochastic Model and Method of Operational Planning Modes Pumping Stations / Proceedings of the IV International Scientific-Technical Conference"Water. Ecology. Society ". - Kharkov: Univ KhNUG, 61–64. (in Russian) 22. Tevyashev A.D., Shulik, P.V. 2002. Estimation of Parameters of Mathematical Models of the Elements of Pumping Stations in Real Time. ACS and automation devices. Kharkov: Univ KhTURE, 28–37. (in Russian)
  • 23.Tevyashev A.D., Matvienko O.I. 2014. One Strategy of Operational Planning Mode Pumping Station. East - European Journal of Enterprise Technologies., № 3. (in Russian)
  • 24.Wróbel K., Styła S. and Sumorek A. 2012. Use of GIS Systems in the Construction of Hydraulic Model of Networks. // ECONTECHMOD An International Quarterly Journal On Economics In Technology, New Technologies And Modelling Processes. Vol. 01, № 2, 63-69.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-4bb55980-b522-49e2-a8bd-cab79710788b
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