№6|2018

ENERGY CONSERVATION

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UDC 628.112.24:621.65

Fisenko V. N.

Energy efficiency of pumps in water supply and wastewater disposal systems

Summary

The aspects of anti-terrorism security of water supply and wastewater disposal facilities are considered alongside with the dyna­mics and structure of the Russian domestic market of pumping equipment for water supply and wastewater disposal systems. Current world trends in improving pumping equipment in relation to furnishing with the systems of intelligent management and control and improving energy efficiency within the frames of «Internet of things» (IoT) concept cause problems in interdisciplinarity. The Soviet experience in improving the domestic approach to the assessment of the energy efficiency of pumping systems in the process of ISO/ASME 14414 standard revision is considered. The criteria of the energy efficiency of pumps for water supply and wastewater disposal systems are presented; their advantages and continuity of the similar international practice are shown. In order to determine what pumps manufactured in the Russian Federation and imported to RF are energy efficient in relation to the operation requirements for water supply and wastewater disposal systems it is necessary to define on the basis of the currently available best practice a common approach to the assessment of energy efficiency that can be used by both manufacturers, designers and users of pumping equipment, and by public oversight and monitoring authorities. Pumping equipment that does not meet such requirements must be excluded from the official stream of commerce in water supply as not compliant with the current ecological requirements and put on the restriction list in RF. The problems of interdisciplinarity in relation to the assigned use in safety critical industries of the domestic radioelectronic element base, domestic operating systems, software in instruments and systems of monitoring and control of pumping equipment of water supply and wastewater disposal systems warrant solutions. Allocation of public funds for equipment integrated with data processing centers located overseas must be limited.

Key words

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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. Gidravlicheskaia optimizatsiia i oborudovanie vodopod”ema iz skvazhin s bestrubnoi ustanovkoi pogruzhnykh elekt­ronasosov [Hydraulic optimization and water lifting equipment for wells with pipeless installation of electric pumps. Ph. D. thesis in Engineering Science. Moscow, VNII VODGEO Publ., 1991, 194 p.].
  3. 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).
  4. Fisenko V. N. [Energy efficiency indices of submersible centrifugal pump group operating with variable load profile in water abstraction wells]. Voda Magazine, 2017, no. 9, pp. 24–30. (In Russian).
  5. Fisenko V. N. [Calculation of energy efficiency indices in designing and operating group deep wells]. Vodoochistka. Vodopodgotovka. Vodosnabzhenie, 2017, no. 10, pp. 38–50. (In Russian).
  6. Fisenko V. N. [Indices of the high energy efficiency of centrifugal pumps operating with variable load profile]. Proceedings of «EcoPump-Rus’2017» International Scientific and Technical Conference. «Energy efficiency and innovations in pump manufacturing. Imports phase-out and local content in Russia». Moscow, October 24–26, 2017. Moscow, 2017, pp. 84–99. (In Russian).
  7. Fisenko V. N. [The effect of the technical level of submersible pump on the energy efficiency of a deep well]. 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 University of Civil Engineering Publ., 2017, pp. 204–209. (In Russian).
  8. Fisenko V. N. [Energy efficiency potential of pumps with equal BEP parameters]. Voda Magazine, 2018, no. 2, pp. 10–17. (In Russian).
  9. Fisenko V. N. [Assessment of pump energy efficiency 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 University of Civil Engineering Publ., 2018. (In Russian).
  10. Fisenko V. N. [Inspection of the energy efficiency of water abstraction wells with submersible centrifugal pumps. Standard ope­rating procedure after GOST 33969-2016 (ISO/ASME 14414:2015). http://well-systems.ru/Well_systems/Pump_Inspection.pdf (accessed 9.05.2018)].
  11. Sokolov S. A. [Essential international approach to the energy efficiency of pumping systems]. Proceedings of «EcoPump-Rus’2017» International Scientific and Technical Conference. «Energy efficiency and innovations in pump manufacturing. Imports phase-out and local content in Russia». Moscow, October 24–26, 2017. Moscow, 2017, pp. 81–83. (In Russian).
  12. Trusov M. M., Fisenko V. N. Komplektnoe oborudovanie dlia bestrubnogo vodopod”ema iz skvazhin i opyt ego primeneniia. Sooruzhenie i ekspluatatsiia vodozaborov podzemnykh vod [Set of equipment for pipeless water lifting from wells and experience in its application. Underground well construction and operation. Under the editorship of Alekseev V. S. Moscow, Central Russian House of Knowledge Publ., 1991, pp. 25–33].
  13. Fisenko V. N. [On the standard service life of submersible multi-stage centrifugal pumps in deep wells]. Proceedings of «EcoPump-Rus’2017» International Scientific and Technical Conference. «Energy efficiency and innovations in pump manufacturing. Imports phase-out and local content in Russia». Moscow, October 24–26, 2017. Moscow, 2017, pp. 48–61. (In Russian).
  14. Fisenko V. N. [Assessment of the technical level of a submersible pump in the process of inspecting the energy efficiency of a deep well after GOST 33969-2016 (ISO/ASME 14414)]. Voda Magazine, 2017, no. 5, pp. 24–28. (In Russian).

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