Analysis of methods of improving energy efficiency of pumping stations power units of water supply systems

• Autorzy: Nikolenko I. , Shvagirev P.
• Języki publikacji: EN

Abstrakty

EN

The article shows the importance of the problem of improving efficiency of energy use in technical and technological systems. One of the ways of improving energy efficiency of water supply systems is the use of new energy-efficient technologies and pumping equipment, the use of modern management systems. Modern trends in the evaluation of energy consumption for operation of pumping equipment of water supply systems were analyzed. New methods of improving energy efficiency of pumping units in water supply system, taking into account the real operating conditions, were presented.

Słowa kluczowe

EN

energy efficiency; pumping unit; pressure; flow; regulation; working field; target value; index of efficiency

• Wydawca: Polish Academy of Sciences, Branch in Lublin
• Czasopismo: ECONTECHMOD : An International Quarterly Journal on Economics of Technology and Modelling Processes
• Rocznik: 2018
• Tom: Vol. 7, No 1
• Strony: 67--77
• Opis fizyczny: Bibliogr. 19 poz., rys.

Twórcy

autor

Nikolenko I.

• Academy of Civil Engineering and Architecture

autor

Shvagirev P.

• Odessa National Polytechnic University Odessa, Shevchenka Avenue, 1

Bibliografia

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• 3. Khromenkov S.V., 2011. Tasks of the development of the water industry for providing the population of Russia with clean water. [Water supply and sanitary engineering], no. 5, pp. 15-22.
• 4. Nikolenko I., Kotovskaia Ye., 2016. Estimation of the energy efficiency of the operation of pumping stations aggregates taking into account operating conditions. [Building and technogenic security. Scientific works of ASA], Simferopol, no. 56, pp. 103-111.
• 5. Kravchenko V., 2007. Water Supply and Sewerage: The Textbook. `The Condor`, 288 p.
• 6. Khovansky S., 2010. Improvement of efficiency of operation of centrifugal pumps in the system of water supply of housing and communal services. PhD in Engineering sciences, Diss., Sumy, 162 p.
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• 8. EN16297-1-2015. Energy efficiency. Pumps circulating sealed. General requirements and methods for testing and calculating the energy efficiency index (EEI).
• 9. EN16297-2-2015. Energy efficiency. Pumps circulating sealed. Calculation of the energy efficiency index (EEI) of self-contained circulating pumps.
• 10. Draft EUROPEAN STANDARD EN 16480, 2012. Pumps-Minimum required efficiency of rotodynamic water pumps, p. 68. Available at: http://europump.net/uploads/presentation_workshop_Prof%20Stoffelb.pdf (accessed 3 August, 2017).
• 11. Nikolenko I., Pastushenko A., Kotovskaya Ye., 2010. Analysis of the influence of the operation conditions of the pumping station on the parameters of pump units. [MOTROL: Polish Academy of Sciences], Lublin, no. 12D, pp. 33-44.
• 12. Novitsky N. N., Sukharev M. G., Tevyashev A. D., 2015. Pipeline systems of power engineering: Methodical and applied problems of mathematical modeling, Science, Novosibirsk, 476 p.
• 13. Nikolenko I., Ryzhakov A., 2016. The method of optimization of operating modes of power units of a pump station. [Construction and technogenic safety. Scientific works of ASA]. Simferopol, no. 57, p. 77-82.
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• 16. Nikolenko I., Shvagirev P., 2015. Analysis of the energy efficiency of various ways of controlling pumps in water supply systems. [MOTROL, Polish Academy of Sciences], Lublin, vol. 17, no. 1, p. 87-96.
• 17. Nikolenko I., Ryzhakov A., Umarov R., 2016. Increase of power efficiency of power units regulation of pumping stations of water supply systems. [Building and technogenic safety. Scientific works of ASA]. Simferopol, no. 55, pp. 75-82.
• 18. Nikolenko I., Shevtsov Ye., 2009. Birotore pumps for increasing the energy efficiency of water supply and wastewater systems. [Visnik Sumskogo state university], no. 21, pp. 49-58.
• 19. Nikolenko I., Tolstoy M., 2015. Ways of improving the energy efficiency of pump control in water supply systems. [Vestnik of Irkutsk State Technical University], Irkutsk, 2015, no. 10 (105), p. 150-161.

Uwagi

Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2018).