VESTNIK
Bashkirskogo universiteta

RUSSIAN
ISSN 1998-4812

Archive | Volume 20, 2015, No. 3.

ANALYSIS OF WORK OF SUCKER ROD PUMP

Vestnik Bashkirskogo Universiteta. 2015. Vol. 20. No. 3. Pp. 817-821.
Yulaeva Yu. Kh.
Bashkir State University
32 Zaki Validi St., 450076 Ufa, Republic of Bashkortostan, Russia.
Email: yulayeva@mail.ru
Kayumov E. F.
Ufa State Petroleum Technological University
1 Kosmonavtov St., 450062Ufa, Republic of Bashkortostan, Russia.

Abstract

In the article, the monitoring system of sucker rod deep pumps improved at the expense of introduction of the developed software that allows collecting of parameters from controllers on one workplace in a real time mode is considered. In developing of the oil fields, the primary means of extracting oil from the reservoir is a sucker rod pump, which is driven by an electromechanical drive. To date, the core technology in the construction of wells is a cluster drilling and all wells are constructed on the site of a small area. This is typical for reservoirs of the northern Urals and Western Siberia. However, there are lot of fields, which wells have been built on the contour of the grid pattern. This way of development is typical for the fields that have been being developed for a long time, and this method involves long distances between wells. All this complicates the remote control parameters of the rod pump and deep pumping unit - that is impractical or impossible to extend the communication cable from a single well to a central control room. Therefore, the control parameters of the SRP and drive according to the procedure of maintenance crews on duty. Of all the means of automation required for any pumping unit is electric power meters and power meters. By analyzing the nature of consumption of electric power, operation modes of SRP and its drive that are different from normal can be detected. By analyzing individual fragments of such data, conclusions can be made, for example, about the misalignment of pump rod, the deformation of the beam-pumping unit, imbalance of the flywheel drive and so on.

Keywords

  • • oil field
  • • deep-well pump
  • • controller
  • • software

References

  1. Tekhnologiya bureniya neftyanykh i gazovykh skvazhin. Uchebnik dlya vuzov [Technology of drilling oil and gas wells. Textbook for universities]. M, Nedra, 2007, 509 pp. Izdanie tret'e. Popov A. N., Spivak A. I., Agzamov F. A.i dr.
  2. Komleva S. F., Izmukhambetov B. S. Tamponazhnye rastvory s ponizhennoi vodootdachei [Grouting solutions with reduced water loss]. Uchebnik s grifom UMO NGO, pod redaktsiei Agzamova F. A. Izd. Monografiya, Ufa. 2008,
  3. Ovchinnikov V. P., Aksenova N. A., Agzamov F. A. Zakanchivanie skvazhin [Completion of wells]. Uchebnoe posobie s Grifom UMO, Tyumen'. Izd. VektorBuk, 2010,
  4. Bronzov A. C., Kustovoe stroitel'stvo skvazhin na neftyanykh i gazovykh promyslakh [Sectional construction of wells at oil and gas fields]. Moscow, 1992. Pp. 53–56.
  5. Kalinin A. G., Iskrivlenie skvazhin [Curvature of wells]. Moscow, 1994. Pp. 154–158.
  6. Razrabotka neftyanykh mestorozhdenii naklonno-napravlennymi skvazhinami [The development of oil fields by directional drilling]. Ed. P. C. Permyakova. Moscow, 2008. Pp. 68–73.
  7. Valitov R. A. The Development of the Oil and Gas Production Complex in the Far East of Russia Potentiality / 7th Annual Event "Sakhalin Oil and Gas". London, 2003.
  8. Valitov R. A., Ismakov R. A. Geologiya i problemy razrabotki mestorozhdenii uglevodorodov. – Ufa: UGNTU, 2001. Pp. 42–43.
  9. Eigeles P. M., Strekalova R. V. Raschet i optimizatsiya protsessov bureniya skvazhin [Calculation and optimization of well drilling processes]. Moscow: Nedra, 2007.
  10. Ismakov R. A., Popov A. N.,.Valitov R. A. Neftegazovoe delo. Ufa: UGNTU, 2003. No. 1. Pp. 105–109.
  11. Ismakov R. A. Sovershenstvovanie geomekhanicheskogo i tribotekhnicheskogo obespecheniya raboty sistemy «skvazhina – skvazhinnaya zhidkost' – instrument»: dis. d-ra tekhn. nauk : 25.00.15, 05.02.13 Ufa, 2006
  12. Ways of improvement of rotary bits for oil and gas wells drilling/R.Ismakov, A. Popov// Intellectual Service for oil and gas industry. USPTU, 2000. Miskolc University, 2000. Pp. 66–75.
  13. Osvoenie neftyanykh mestorozhdenii v geologicheskikh i prirodno-klimaticheskikh usloviyakh severo-vostoka Bashkortostana / N. Sh. Khairetdinov, R. L. Ismakov. Izv.vuzov. Gornyi zhurnal. Ural'skoe gornoe obozrenie. 1997. No. 5–6. Pp. 82–84.
  14. Obosnovanie prochnostnykh raschetov stenok naklonnoi skvazhiny/ P. A. Ismakov, A. N. Popov, P. A. Valitov. Neftegazovoe delo: nauchno-tekhnicheskii zhurnal. Ufa, 2003. No. 1. Pp. 105–110.
  15. Obobshchennye kharakteristiki napryazhennogo sostoyaniya gornykh porod stenki naklonnoi skvazhiny / P. A. Ismakov, A. N. Popov//Izv.vuzov. Neft' i gaz. 2003. No. 5. Pp. 18–23.
  16. Kalmykov O. Kon''yunktura rynka neftegazovogo oborudovaniya. 2007. No. 9. Pp. 11–13.
  17. Avtomatizatsiya i avtomatizirovannoe upravlenie ob''ektov neftegazodobyvayushchego proizvodstva OAO «Bashneft'». Tipovye proektnye resheniya [Automation and automated control of oil and gas production facilities of JSC “Bashneft”. Typical design solutions]. Ufa: Izd-vo OAO «APK «Bashneft'», 2002. –
  18. Avtomatizirovannaya sistema upravleniya tekhnologicheskimi protsessami neftegazodobychi. Osnovnye polozheniya [Automated control system of technological processes of oil and gas production. Main provisions]. Moscow: Izd-vo OAO «Lukoil», 1998.
  19. Rukovodstvo po ekspluatatsii skvazhin ustanovkami skvazhinnykh shtangovykh nasosov v OAO «Tatneft'» [Manual on well exploitation by downhole rod pumps in JSC “Tatneft”]. Al'met'evsk: Izd-vo OAO «Tatneft'».
  20. Watson, et al., Reciprocating pump control system, Pat. USA No. 6890156, pr. 10.05.2005.
  21. Barnes, et al., Integrated control system for beam pump systems, Pat. USA No. 7219723, pr. 22.05.2007.