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UDC 628.1/.2:336.7

Berezin S. E., Pupyrev E. I., Bazhenov V. I., Samburski Georgi

Development of the method of life cycle costing of the equipment, systems and facilities for water supply and wastewater disposal

Summary

The Expert-Technological Board of the Russian Water and Wastewater Association has developed «The method of life cycle cos­ting of the equipment, systems and facilities for water supply and wastewater disposal». The method was presented at X Conference of Russian Vodokanals (September 19–22, 2017, Kaliningrad), and at the present moment it is under approval of the Federal Anti-Monopoly Service. The analysis of the life cycle cost estimate methods – international (for the purpose of the compliance with the state procurements) and domestic (their use is not of system character). The calculation dependencies are presented also with account of discounting expenditures of the current cost in time. The categories of pertainance of the calculation objective are presented: the first – equipment, products; the second – capital construction projects. The adaptation of the estimate indicators to the international practice is accompanied with the support of the generally accepted abbreviation to simplify the procedure of the foreign representatives participating in the Russian tenders. The references to the examples of the approbation of the life cycle cost calculation in accordance with the functional specific features of the developed method related to the technical and technologic aspects as well as to the projects – research and design and experimental, public-private partnership, performance and leasing contracts are given.

Key words

water supply , water disposal , life cycle cost , estimation procedure , discounting expenditures

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REFERENCES

1. Sostavlenie tekhniko-ekonomicheskoi chasti proektov vneploshchadochnykh sistem vodosnabzheniia i kanalizatsii [Drawing up a feasibility study of the projects of offsite water supply systems and sewers. Reference guide to SNiP / Soiuzvodokanalproekt. Moscow, Stroiizdat Publ., 1991, 102 p.].
2. Pump life cycle costs. A guide to LCC analysis for pumping systems. Edited by L. Frenning. New Jersey, Hydraulic Institute Europump, 2001, 194 p.
3. Berezin S. E. [Cost or energy expenditures? Selection of the equipment during tenders shall be performed by the aggregate cost of use]. Nailuchshie Dostupnye Tekhnologii Vodosnabzheniia i Vodootvedeniia, 2015, no. 2, pp. 36–40. (In Russian).
4. Nefedova E. D., Hamalainen M. M., Kovzharovskaia I. B. [The experience of evaluating the efficiency of the actions of the investment program of a water supply and wastewater disposal enterprise]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2017, no. 3, pp. 66–70. (In Russian).
5. Bazhenov V. I., Berezin S. E., Zubovskaia N. N. [Ecomonic analysis of the pump systems based on the life cycle costs indicator ]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2006, no. 3, part 2, pp. 31–35. (In Russian).
6. Karmazinov F. V., Mel’nik E. A., Ipatko M. N., Il’in Iu. A., Ignatchik V. S., Ignatchik S. Iu. [The method of evaluating the economic efficiency of water supply systems with pumping stations equipped with tanks]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2014, no. 12, pp. 48–54. (In Russian).
7. Gurinovich A. D., Sycheva E. A. [The method of evaluating the life cycle cost of a water well]. Voda Magazine, 2016, no. 3 (103), pp. 44–47. (In Russian).
8. Gogina E. S., Gurinovich A. D. [The use of LСС method in evaluating the efficienc y of investment projects of wastewater treatment facilities]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2016, no. 9, pp. 36–41. (In Russian).
9. Bazhenov V. I., Krivoshchekova N. A. [Economic efficiency of the biological wastewater treatment facilities based on the life cycle costs indicator]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2009. no. 2, pp. 69–74. (In Russian).
10. Bazhenov V. I., Berezin S. E., Ustiuzhanin A. V. [Total cost of ownership – the economically substantiated criterion of selecting equipment and technical solutions]. Nailuchshie Dostupnye Tekhnologii Vodosnabzheniia i Vodootvedeniia, 2014, no. 4, pp. 38–47. (In Russian).
11. Bazhenov V. I., Berezin S. E., Ustiuzhanin A. V. [Feasibility of air-blower house construction on the basis of life cycle costs evaluation]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2015, no. 2, pp. 46–53. (In Russian).
12. Bazhenov V. I., Ustiuzhanin A. V. [Assessment of long-term investment projects with energy efficient solutions on the basis of life cycle costs indicator]. Vestnik MGSU, 2015, no. 9, pp. 146–157. (In Russian).
13. Shcheveleva T. I. [Methodology of environmental-economic factors recognition in waste handling]. Vestnik Moskovskogo Universiteta. Seriia 6. Ekonomika, 2013, no. 6. pp. 99–106. (In Russian).
14. Vorontsova Iu. V., Korchagina A. P. [Life cycle costing as a system of calculating expenditures on research and development activities]. Vestnik Universiteta (Gosudarstvennyi Universitet Upravleniia), 2017, no. 9, pp. 85–90. (In Russian).
15. Kuznetsova V. B. [Improving the efficiency of monitoring after-sale service of scientific products with the purpose of decrea­sing the full life cycle cost]. Al’manakh Molodoi Nauki, 2016, no. 1, pp. 22–26. (In Russian).
16. V’iunov S. S. [Using life cycle cost analysis for public-private partnership projects]. Ekonomika i Predprinimatel’stvo, 2016, no. 11–1 (76–1), pp. 371–374. (In Russian).
17. Berezin S. E., Ustiuzhanin A. V., Bazhenov V. I., Kuksa M. A., Petrov V. I., Petrov Iu. V., Ovseichuk B. V., Noskova I. A. [Business-process of a performance contract (for a big electric generation system through the example of air-blower plants)]. Nailuchshie Dostupnye Tekhnologii Vodosnabzheniia i Vodootvedeniia, 2016, no. 1, pp. 48–55. (In Russian).
18. Berezin S. E., Bazhenov V. I., Ustiuzhanin A. V., Kuksa M. A., Petrov V. I., Petrov Iu. V., Ovseichuk B. V., Noskova I. A. [Business-process of a performance contract (for a big electric generation system through the example of air-blower plants)]. Nailuchshie Dostupnye Tekhnologii Vodosnabzheniia i Vodootvedeniia, 2016, no. 2, pp. 43–48. (In Russian).