Express-diagnostics of rods’ parting-twist off at wells equipped with sucker rod pump
- Autores: Galeev A.S.1, Sabanov S.L.1, Suleymanov R.N.2, Filimonov O.V.2, Utemisov T.A.2, Zhanturin Z.K.3
-
Afiliações:
- Almetyevsk State Petroleum Institute
- Ufa State Petroleum Technical University
- NAO “Atyrau University of Oil and Gas named after S. Utebayev"
- Edição: Volume 4, Nº 1 (2022)
- Páginas: 107-113
- Seção: Articles
- URL: https://journals.rcsi.science/2707-4226/article/view/125914
- DOI: https://doi.org/10.54859/kjogi105588
- ID: 125914
Citar
Texto integral
Resumo
The development of fields that are at a late or final stage of operation is carried out mainly with the use of downhole sucker rod pumps. The most characteristic failures for these installations are rods’ parting-twist off and malfunctions of pump valves. The methods of eliminating these accidents vary significantly – the parting or twist off of the rods involves lifting of the downhole equipment, and the "sticking" of the shut-off valve assembly of the pump is eliminated by "resuscitation" of the downhole equipment (flushing with water, hot oil or solvent). An error in fault identification leads to incorrect planning of work to restore the operability of the downhole equipment and, as a result, to economic losses. The cause of malfunctions of the downhole equipment of downhole rod pumping units, as a rule, is determined by analyzing dynamograms. However, in many cases dynamograms do not allow to distinguish the lower twist off of the rods from the malfunction of the valves of the rod pump. In the presented work, a method for the operational determination of the parting or twist off of rods in the well is considered, which consists in creating an electrical circuit "rod string –tubing string" and monitoring its integrity. To determine the type of malfunction, the synchronization unit measures the resistance of the system on the dielectric insert via the electromagnetic channel. In case of parting or twist off of the rods, the electrical resistance of the "tubing-pump-rod string" circuit will be much higher (more than 2 ohms) than in the absence of this failure (0...2 ohms).
Texto integral
Sobre autores
A. Galeev
Almetyevsk State Petroleum Institute
Email: ssgaleev@mail.ru
доктор техн. наук, профессор Almetyevsk
S. Sabanov
Almetyevsk State Petroleum Institute
Email: sab-sl@mail.ru
канд. техн. наук, доцент Almetyevsk
Rais Suleymanov
Ufa State Petroleum Technical University
Email: rsulem@mail.ru
канд. техн. наук, доцент Ufa
O. Filimonov
Ufa State Petroleum Technical University
Email: oleg1543@mail.ru
канд. техн. наук, доцент Ufa
T. Utemisov
Ufa State Petroleum Technical University
Email: lvd@mail.ru
канд. техн. наук, доцент Ufa
Zh. Zhanturin
NAO “Atyrau University of Oil and Gas named after S. Utebayev"
Email: aing-zhomart@mail.ru
канд. техн. наук, доцент Atyrau
Bibliografia
- Султанов Б.З., Шагалеев Р.К. Поломка штанг погружных насосных установок ОАО «Татнефть». – Нефтегазовое дело, 2009, т. 7, № 2, с. 68–70. // Sultanov B.Z., Shagaleev R.K. Polomka shtang pogruzhnyh nasosnyh ustanovok OAO «Tatneft'» [Breakage of rods of submersible pumping units of TATNEFT OJSC]. – Neftegazovoe delo [Oil and gas business], 2009, v. 7, No. 2, pp. 68–70.
- Кочеков М.А., Ситдиков М.Р., Ишемгужин И.Е. Анализ обрывов в НГДУ «Чекмагушнефть». – Сб. тр. Всеросс. научно-техн. конф. «Инновационное нефтегазовое оборудование: проблемы и решения», Уфа, УГНТУ, 2010, с. 151–154. // Kochekov M.A., Sitdikov M.R., Ishemguzhin I.E. Analiz obryvov v NGDU «Chekmagushneft'» [Analysis of breakdowns in NGDU "Chekmagushneft"]. – Sb. tr. Vseross. nauchno-tehn. konf. «Innovacionnoe neftegazovoe oborudovanie: problemy i reshenija» [Compilation of Proceedings of the All-Russian Scientific and Technical Conference "Innovative Oil and Gas Equipment: Problems and Solutions"], Ufa, UGNTU, 2010, pp. 151–154.
- Халимов Ф.Г., Зубаиров С.Г., Загорский В.К., Салихов И.А., Курамшин А.А. Анализ причин и профилактика верхушек насосных штанг и труб. – Нефтегазовое дело, 2011, № 6, с. 457–464. // Halimov F.G., Zubairov S.G., Zagorskij V.K., Salihov I.A., Kuramshin A.A. Analiz prichin i profilaktika verhushek nasosnyh shtang i trub [Cause analysis and preventive measures for sucker rod and pipe tops]. – Neftegazovoe delo [Oil and gas business], 2011, No. 6, pp. 457–464.
- Полигин В.В., Лекомцев А.В. Динамика износа штанговых насосов при эксплуатации скважины. – Нефтяная промышленность, 2011, № 9, с. 22–28. // Poligin V.V., Lekomcev A.V. Dinamika iznosa shtangovyh nasosov pri ekspluatacii skvazhiny [Dynamics of rod pump wear during well operation]. – Neftjanaja promyshlennost' [Oil industry], 2011, No. 9, pp. 22–28.
- Ибрагимов Р.Р. Предотвращение разворотов колонны штанг путем применения противооткрытой гибкой муфты и нанесения анаэробного герметика в ООО «Башнефть-Добыча». – Нефтегазовое дело, 2019, т. 17, № 1, с. 50–55. // Ibragimov R.R. Predotvrashhenie razvorotov kolonny shtang putem primeneniya protivootkrytoi gibkoi mufty i naneseniya anaerobnogo germetika v OOO «Bashneft'-Dobycha» [Prevention of rod string turns by using an anti-open flexible coupling and applying an anaerobic sealant at Bashneft-Dobycha LLC]. – Neftegazovoe delo [Oil and gas business], 2019, v. 17, No. 1, pp. 50–55.
- Галеев А.С., Григорьев В.М., Арсланов Р.И., Ермилов П.П. О возможности использования беспроводного гальванического канала связи в скважинах, оборудованных штанговыми насосами. – Современные фундаментальные и прикладные исследования. Международное научное издание, 2012. № 4 (7), с. 44–48. // Galeev A.S., Grigor'ev V.M., Arslanov R.I., Ermilov P.P. O vozmozhnosti ispol'zovaniya besprovodnogo gal'vanicheskogo kanala svyazi v skvazhinah, oborudovannyh shtangovymi nasosami [On the possibility of using a wireless galvanic communication channel in wells equipped with rod pumps]. – Sovremennye fundamental'nye i prikladnye issledovaniya. Mezhdunarodnoe nauchnoe izdanie [Modern fundamental and applied research. International scientific publication], 2012. No. 4 (7), pp. 44–48.
- Галеев А.С., Сулейманов Р.Н., Арсланов Р.И., Бикбулатова Г.И., Болтнева Ю.А. Устройство для передачи информации по электромагнитному каналу связи при эксплуатации скважины. – Патент. 2696954 RU, Бюлл. 2019, №22. с. 4. // Galeev A.S., Suleimanov R.N., Arslanov R.I., Bikbulatova G.I., Boltneva Ju.A. Ustroistvo dlya peredachi informacii po elektromagnitnomu kanalu svyazi pri ekspluatacii skvazhiny [A device for transmitting information via an electromagnetic communication channel during well operation]. – Patent. 2696954 RU, Bull. 2019, No.22. p. 4.
- Галеев А.С., Сулейманов Р.Н., Филимонов О.В., Шайхразиев С.Р. Способ и устройство определения нижнего обрываотворота штанг на скважинах, оборудованных УШГН. – Патент РФ 2753327, Бюлл. 2019, № 30. // Galeev A.S., Suleimanov R.N., Filimonov O.V., Shaihraziev S.R. Sposob i ustroistvo opredeleniya nizhnego obryvaotvorota shtang na skvazhinah, oborudovannyh UShGN [Method and device for determining the lower break / back off of rods in wells equipped with SRPU]. – Patent of RF 2753327, Bull. 2019, No.30.
Arquivos suplementares
