№04|2023
WATER INTAKES
UDC 628.11/.12:658.26:004.02
DOI 10.35776/VST.2023.04.03
Hydraulic calculation of group water intakes on underground wells equipped with pumps with variable speed drives
Summary
The use of variable speed drives at group water intakes on underground sources in water supply systems is aimed at saving electricity, ensuring efficient operation modes, improving the management engineering; however, without sufficient justification the desired result is not always effected. One of the reasons is the lack of calculation using an effective mathematical model that describes the movement of water in aquifers, wells, lift pipes and gathering mains, taking into account all the existing limitations, including the mode parameters while using variable speed drives in some or in all submersible pumps. The model is submitted in the form of an optimization task where the target function is the total power input of all the operating submersible pumps. The proposed optimization model provides for describing the modes of the group water intakes operating from the intake external boundary to the tanks. All the limitations of the optimization task can be divided into three non-overlapping groups as follows: balance, technologic, and performance ones. Having calculated the electricity consumption for all significant modes during the year and compared them with the costs at the existing modes without variable speed drives, we can make a reasonable conclusion about the applicability of a variable speed drive in one or more submersible pumps. The proposed model provides for arranging both efficient and technologically allowable operating modes.
Key words
frequency converter , water well , aquifer , submersible pump , hydraulic head , flow distribution task , optimization task , energy input , group water intake
For citation: Baranchikova N. I., Epifanov S. P., Dytte A. G. Hydraulic calculation of group water intakes on underground wells equipped with pumps with variable speed drives. Vodosnabzhenie i Sanitarnaia Tekhnika, 2023, no. 4, pp. 21–29.
DOI: 10.35776/VST.2023.04.03. (In Russian).
The further text is accessible on a paid subscription.
For authorisation enter the login/password.
Or subscribe
REFERENCES
- Sperlich A., Pfeiffer D., Burgscheiger J., Campbell E., Beck M., Gnirss R., Ernst M. Energy efficient operation of variable speed submersible pumps: simulation of a ground water well field. Water, 2018, 10. DOI:10.3390/w10091255. http://www.mdpi.com/journal/water.
- Rzaev A. S., Rezvan M. Kh., Khakim’ianov M. I. [Automation of artificial lift systems in the CIS]. Neftegazovoe Delo Electronic Scientific Journal, 2013, no. 5, pp. 19–29. http://www.ogbus.ru/authors/Hakimyanov/Hakimyanov_6.pdf. (In Russian).
- Leznov B. S., Vorob’ev S. V. [The operation of centrifugal pumps with variable speed]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2012, no. 9, pp. 48–56. (In Russian).
- Kostiuk A. V., Tverdokhleb I. B. [Power saving operation of ETSV borehole pumps]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2010, no. 6, pp. 54–58. (In Russian).
- Rybel’ S. I., Kuninin V. P., Gerasimov S. P., Bakushin A. V. [The experience of using variable speed drives at the facilities of Vodokanal LLC]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2020, no. 4, pp. 55–57. (In Russian).
- Karelin V. Ia., Minaev A. V. Nasosy i nasosnye stantsii [Pumps and pumping stations. College textbook. Moscow, Stroiizdat Publ., 1986, 320 p.].
- Plotnikov N. A., Alekseev V. S. Proektirovanie i ekspluatatsiia vodozaborov podzemnykh vod [Designing and operating ground water intakes. Moscow, Stroiizdat Publ., 1990, 256 p.].
- Rukovodstvo po proektirovaniiu sooruzhenii dlia zabora podzemnykh vod [Design guide for groundwater intake structures. Moscow, VNII VODGEO Publ., 1979, 106 p.].
- Gavrilko V. M. Fil’try vodozabornykh, vodoponizitel’nykh i gidrogeologicheskikh skvazhin [Filters for water intake, unwatering and hydrogeological wells. Moscow, Gosstroiizdat Publ., 1968, 397 p.].
- Starinskii V. P., Mikhailik L. G. Vodozabornye i ochistnye sooruzheniia kommunal’nykh vodoprovodov [Water intake and treatment facilities of public water supply. Study guide. Moscow, Vysshaia Shkola Publ., 1989, 269 p.].
- Evstigneev V. A., Kas’ianov V. N. Tolkovyi slovar’ po teorii grafov v informatike i programmirovanii [Explanatory Dictionary of graph theory in computer science and programming. Novosibirsk, Nauka Publ., 1999, 289 p.].
- Baranchikova N. I., Epifanov S. P., Kurtin A. V. [Mathematical modeling of the joint operation of pumping units including frequency regulated ones]. Vodosnabzhenie i Sanitarnaia Tekhnika, 2020, no. 12, pp. 43–49. (In Russian).
- Baranchikova N. I., Epifanov S. P., Isakov I. M., Tsukanov S. T. [Features of the use of variable speed drives in pumping units in heat supply systems]. Promyshlennaia Energetika, 2022, no. 5, pp. 22– 29. (In Russian).