№7|2021

ENERGY CONSERVATION

DOI 10.35776/VST.2021.07.08
UDC 621.65:628.112.24

Fisenko V. N.

Energy audit of pumps in industrial and municipal systems and labelingEnergy audit of pumps in industrial and municipal systems and labelingof the operational efficiency: systematic approach (part 2)

 

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REFERENCES

  1. Fisenko V. N. [Life cycle of submerged centrifugal pumps in groundwater wells]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2017, no. 7, pp. 54–63. (In Russian).
  2. Fisenko V. N. [Indicators of high energy efficiency of centrifugal pumps operating with a variable load profile]. Proceedings of the International Scientific and Technical Conference ECOPUMP–RUS’2017 «Energy efficiency and innovations in pump designing. Import substitution and localization of production in Russia», October 26, 2017, Moscow, pp. 84–99. (In Russian).
  3. Fisenko V. N. [Energy efficiency indices for a group of submersible centrifugal pumps operating with a variable load profile in water wells]. Voda Magazine, 2017, no. 9, pp. 24–30. (In Russian).
  4. Fisenko V. N. [Calculation of energy efficiency indices in the design and operation of group borehole water intakes]. Vodoochistka. Vodopodgotovka. Vodosnabzhenie, 2017, no. 10, pp. 38–50. (In Russian).
  5. Fisenko V. N. [Estimation of the energy efficiency of pumps in water supply systems]. Book of reports of XIII International Scientific and Technical Conference Dedicated to the Memory of S. V. Iakovlev, Academician of RAS. Moscow, National Research Moscow, State University of Civil Engineering, 2018, pp. 116–123. (In Russian).
  6. Fisenko V. N. [Potential of energy efficiency of pumps with equal parameters of B.E.P.]. Voda Magazine, 2018, no. 2, pp. 10–17. (In Russian).
  7. Fisenko V. N. [On the system of indicators of the energy efficiency of pumps in water supply and wastewater disposal systems]. Vodoochistka. Vodopodgotovka. Vodosnabzhenie, 2018, no. 6, pp. 54–60. (In Russian).
  8. Fisenko V. N. [Energy efficiency of pumps in water supply and wastewater disposal systems]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2018, no. 6, pp. 52–63. (In Russian).
  9. Fisenko V. N. [On the assessment of the energy efficiency of pumping systems in accordance with GOST 33969-2016 (ISO/ASME 14414) and the parameters of the life cycle of the LCC method]. Proceedings of the International Scientific and Technical Conference ECOPUMP–RUS’2018 «Energy efficiency and innovations in pump designing», October 25, 2018, Moscow, pp. 61–73. (In Russian).
  10. Fisenko V. N. [Evaluation of the energy eco-efficiency of pumps in tests and in real systems]. Proceedings of the International Scientific and Technical Conference ECOPUMP–RUS’2019 «Energy efficiency and innovations in pump designing», October 24, 2019, Moscow, pp. 70 –79. (In Russian).
  11. Fisenko V. N. [Expansion of the list of indicators of energy efficiency of the structures of industrial and municipal systems with pumps to estimate the potential for reducing greenhouse gas emissions]. Vodoochistka. Vodopodgotovka. Vodosnabzhenie, 2019, no. 7, pp. 42–56. (In Russian).
  12. Rekomendatsii po kompleksnym raschetam vodozaborov podzemnykh vod s primeneniem EVM [Recommendations for integrated computations of groundwater intakes. Moscow, VNII VODGEO Publ., 1980, 272 p.].
  13. Fisenko V. N. Gidravlicheskaia optimizatsiia i oborudovanie vodopod’ema iz skvazhin s bestrubnoi ustanovkoi pogruzhnykh elektronasosov [Hydraulic optimization and equipment for water lifting from wells with pipeless installation of submersible electric pumps. Synopsis of a thesis for Ph. D. degree in Engineering. Moscow, VNII VODGEO Publ., 1991, 139 p.].
  14. Fisenko V. N. Sistema imitatsionnogo modelirovaniia pod’ema vody iz skvazhiny s bestrubnoi ustanovkoi pogruzhnogo elektronasosa (SIMONA-VS) [Simulation system for water lifting from a well with a pipeless installation of a submersible electric pump (SIMONA-VS). Kalinin, NPO Tsentrprogrammsistem, State Fund of algorithms and programs, 1990].
  15. Fisenko V. N. [Criteria for the optimization of the operating mode of a water intake vacuum well]. Vklad molodykh uchenykh i spetsialistov v uskorenie nauchno-tekhnicheskogo progressa [The contribution of young scientists and specialists to the acceleration of scientific and technological progress. Dzhambul, 1988].
  16. Fisenko V. N., Fisenko N. T. [Invention Certificate 14911974, USSR. Method of preparing a water well for operation]. Bulleten’ Izobretenii, 1989, no. 25. (In Russian).
  17. Pump Industry Awards 2018 Finalists Technical Innovation on the Year – Projects: Indicators of high energy efficiency of centrifugal pumps operating with a variable load profile, Ru Well Systems Private Research Innovation Company. https://www.worldpumps.com/operating-design/news/pump-industry-awards-2018-finalists/ (accessed April 20, 2021).
  18. Plotnikov N. A., Alekseev V. S. Proektirovanie i ekspluatatsiia vodozaborov podzemnykh vod [Designing and operating underground water intakes. Moscow, Stroiizdat Publ., 1990, 256 p.].
  19. Fisenko V. N. [Estimation of the technical level of a submersible pump while inspecting the energy efficiency of a borehole water intake in accordance with GOST 33969-2016 (ISO/ASME 14414)]. Voda Magazine, 2017, no. 5, pp. 24–28. (In Russian).
  20. Fisenko V. N. [Influence of the technical level of a submersible pump on the energy efficiency of a borehole water intake]. Book of reports of XII International Scientific and Technical Conference Dedicated to the Memory of S. V. Iakovlev, Academician of RAS. Moscow, National Research Moscow, State University of Civil Engineering, 2017, pp. 204–209. (In Russian).
  21. Fisenko V. N. [On the standard service life of submersible multistage centrifugal electric pumps in wells]. Proceedings of the International Scientific and Technical Conference ECOPUMP–RUS’2016 «Energy efficiency and innovations in pump designing. Import substitution and localization of production in Russia», October 26, 2016, Moscow, pp. 48–61. (In Russian).
  22. Fisenko V. N. [Energy saving in operating deep wells for underground water abstraction]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2016, no. 11, pp. 22–33. (In Russian).
  23. Fisenko V. N. [Business environmental responsibility indicators in industrial systems and utilities with pumps in a low carbon economy]. Book of reports of XVI International Scientific and Technical Conference Dedicated to the Memory of S. V. Iakovlev, Academician of RAS. Moscow, National Research Moscow State University of Civil Engineering Publ., 2021, pp. 237–244. (In Russian).
  24. Fecarotta O., Cimorelli L. Optimal scheduling and control of a sewer pump under stochastic inflow pattern. Urban Water Journal, Taylor & Francis, 2021, p. 1–11. doi={10.1080/1573062X.2021.1893358}.
  25. Arun Shankar V. K., Umashankar Subramaniam, Rajvikram Madurai Elavarasan, Kannadasan Raju, Paramasivam Shanmugam. Sensorless parameter estimation of VFD based cascade centrifugal pumping system using automatic pump curve adaption method. Energy Reports. November 2021, v. 7, p. 453–46. doi={10.1016/J.EGYR.2021.01.002}.
  26. Pump life cycle costs: A guide to LCC analysis for pumping systems. Europump and Hydraulic Institute, 2001.

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