Scientific and technical journal

«Equipment and technologies for oil and gas complex»

ISSN 1999-6934

Equipment and technologies for oil and gas complex
Experience of creating a double-acting plunger pump with a submersible linear electric drive

UDC: 622.276.53.054.22:621.653
DOI: 10.33285/1999-6934-2022-5(131)-61-65

Authors:

IVANOVSKY VLADIMIR N.1,
SABIROV ALBERT A.1,
VDOVIN EDUARD YU.2,
PIVOVAR RUSLAN P.3,
BAKANEEV VITALY S.3,
PETROV ALEXEY B.3

1 National University of Oil and Gas "Gubkin University", Moscow, Russia
2 IT Center, Moscow, Russia
3 LUKOIL-PERM, Perm, Russiа

Keywords: double-acting plunger pump, linear electric drive, bench tests, complex characteristic, energy efficiency

Annotation:

Oil from low-flow wells with complicated operating conditions is produced with the help of rod pumping units and electrically-driven blade pumping units in a cyclic mode. Both of these methods have significant disadvantages that increase the total cost of ownership. The use of linear-driven pumping units and single-acting pumps does not solve all the problems of low-flow wells operation. The use of double-acting pumps in combination with a linear electric drive makes it possible to increase the efficiency of this type of equipment. The analysis of the created design of the double-acting pump, information on bench tests and on the obtained complex characteristics of the developed pump is the main content of this article.

Bibliography:

1. Bakirov R.I., Popov M.S., Berdin S.M. Pervyy opyt primeneniya plunzhernykh nasosov s pogruzhnym lineynym elektroprivodom v OAO "NK "Rosneft'" // Nauch.-tekhn. vestn. OAO "NK "Rosneft'". – 2016. – № 2(43). – S. 72–75.
2. Yakimov S.B. Sostoyanie i perspektivy ispol'zovaniya tekhnologiy ekspluatatsii malodebitnykh skvazhin v OAO "NK "Rosneft'" // Inzhenernaya praktika. – 2014. – № 11. – S. 4–12.
3. Timashev E.O. Nauchnye i metodologicheskie osnovy sovershenstvovaniya nasosnykh sistem mekhanizirovannoy ekspluatatsii nizkodebitnykh skvazhin: dis. … d-ra tekhn. nauk: 05.02.13. – Ufa, 2021. – 389 s.