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Manufacture of Borehole Pumping Equipment

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Russian Engineering Research Aims and scope

Abstract

A new generation of oilfield equipment capable of safe operation for a long period in challenging conditions has appeared in recent years. In that context, it is of great interest to create high-quality materials with excellent mechanical properties and performance and to develop economical high-speed methods of producing such materials. The present work focuses on the advantages and disadvantages of current technologies and materials for the production of borehole pumping equipment and on recommendations regarding the selection of high-performance pumping equipment and its operating conditions.

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REFERENCES

  1. Bakhtizin, R.N., Urazakov, K.R., and Rizvanov, R.R., New calculation method of admissible brought stress values, Neft. Khoz., 2013, no. 12, pp. 122–124.

  2. Ivanovskii, V.N., Skvazhinnye nasosnye ustanovki dlya dobychi nefti (Well Pumping Units for Oil Production), Moscow: Neft’ Gaz, 2002.

  3. Gilaev, G.G., Bakhtizin, R.N., and Urazakov, K.R., Sovremennye metody nasosnoi dobychi nefti: Monografiya (Modern Methods of Pumping Oil Production: Monograph), Ufa: Vostochnaya Pechat’, 2016.

  4. Molchanov, A.G., Ways of further sophistication of well rod pump rigs, Buren. Neft, 2014, no. 2, pp. 3–8.

  5. Dragotescu, N.D., Pompajul Sondelor de Titei, Bucuresti: Tehnica, 1961.

    Google Scholar 

  6. Bevza, V.F., Grusha, V.P., and Krasnyi, V.A., Improvement of structure and properties of Ni-resist cast-iron part blanks for mining and petroleum refining machine industry, Gorn. Inf.-Anal. Byull., 2018, no. 2, pp. 156–167.

  7. Arkhipov, K.I., Spravochnoe posobie po glubinno-nasosnomu oborudovaniyu (Depth Pumping Equipment Reference Manual), Almetyevsk: TatASUneft’, 2008.

  8. Galimullin, M.L., Abdyukova, R.Ya., and Ziyakaev, Z.N., Analysis of the condition of valve pairs of sucker rod deep well pumps coming in for overhaul repair, Materialy V mezhvuzovskoi nauchno-metodicheskoi konferentsii “Problemy neftedobychi Volgo-Ural’skogo regiona” (Proc. V Interuniv. Sci.-Methodol. Conf. “Problems of Oil Production in the Volga-Ural Region”), Ufa: Ufa State Pet. Technol. Univ., 2000, p. 137.

  9. Kerimov, O.M. and Abbasov, E.E., Analysis of valve unit work of a sucker rod pump, Stroit. Neft. Gaz. Skvazhin Sushe More, 2016, no. 1, pp. 33–35.

  10. Kormil’tsev, A.V., Moshegova, A.A., and Bogatov, A.A., New technology for manufacturing pipes for deep well pumps, Nauchnye trudy VIII otchetnoi konferentsii molodykh uchenykh GOU VPO UGTU-UPI (Sci. Proc. VIII Rep. Conf. of Young Scientists of GOU VPO UGTU-UPI), Yekaterinburg: GOU VPO UGTU-UPI, 2005, vol. 1, p. 317.

  11. Rabinovich, A.I., On the energy efficiency frontier of EDCPs and ESPOs, Inzh. Prakt., 2012, no. 10.

  12. Ivanovskii, V.N., SSNU and EDCPs: Status and prospects, Neftegaz. Vertikal’, 2007, no. 2, pp. 64–65.

  13. Gilev, A.V., Chesnokov, V.G., Lavrova, N.B., et al., Osnovy ekspluatatsii gornykh mashin i oborudovaniya (Fundamentals of Mining Machinery and Equipment Operation), Krasnoyarsk: Sib. Fed. Univ., 2011.

  14. Ivanovskii, V.N., Darishchev, V.I., Sabirov, A.A., et al., Skvazhinnye nasosnye ustanovki dlya dobychi nefti (Well Pumping Units for Oil Production), Moscow: Neft’ Gaz, 2002.

  15. Arzamasova, B.N., Materialovedenie (Material Science), Moscow: Bauman Moscow State Tech. Univ., 2008.

    Google Scholar 

  16. Rogov, V.A. and Poznyak, G.G., Sovremennye mashinostroitel’nye materialy i zagotovki (Modern Engineering Materials and Workpieces), Moscow: Akademiya, 2008.

  17. Gilev, V.G., Morozov, E.A., Purtov, I.B., and Rusin, E.S., Microstructure and microhardness research of Ni-rezist cast iron after laser surface melting, Izv. Samarsk. Nauchn. Tsentra Ross. Akad. Nauk, 2014, vol. 16, no. 6, pp. 227–233.

    Google Scholar 

  18. Tarasov, S.V. and Svirshchev, V.I., Effect of the processing conditions on the temperature when turning Ni-resist cast iron, Tekhnol. Mashinostr., 2014, no. 9, pp. 15–19.

  19. Ahmad, K.M., Maarof, M.R., Ishak, M., and Huzairi, M.S., Microstructure and mechanical properties of austenitic compacted cast iron with additive manganese, MATEC Web Conf., 2016, vol. 74, p. 00009. https://doi.org/10.1051/matecconf/20167400009

  20. Rashidi, M.M. and Idris, M.H., The effects of solidification on the microstructure and mechanical properties of modified ductile Ni-resist iron with a high manganese content, Mater. Sci. Eng., A, 2014, vol. 597, pp. 395–407.

    Article  Google Scholar 

  21. Ivanovskii, V.N., Darishchev, V.I., Kashtanov, V.S., et al., Neftegazopromyslovoe oborudovanie (Oil and Gas Field Equipment), Moscow: TsentrLitNefteGaz, 2006.

  22. Morozov, S.A. and Malina, O.V., Structural synthesis of pressure metal forming processes, Univ. Rev. Ser.: Tech. Sci. (Dubček Univ. Trenčin, Slovak Rep.), 2011, vol. 5, no. 1, pp. 8–12.

  23. Morozov, S.A., Karavayeva, A.S., and Evseev, I.S., Mathematical modeling of forging in the QForm program, Fourth Forum of Young Researchers: In the Framework of Int. Forum “Education Quality–2014” (Izhevsk, Russia, April 23, 2014), Izhevsk: Kalashnikov Izhevsk State Tech. Univ., 2014, pp. 308–310.

  24. Morozov, S.A. and Malina, O.V., Of computer aided development of metal process methods by pressure shaping according to any set of initial restrictions, Proc. 1st Int. Conf. Advances in Mechatronics (Trenčin, Slovakia, August 16–18, 2006), 2006, p. 43.

  25. Shan, D.B., Xu, W.C., and Lu, Y., Study on precision forging technology for a complex-shaped light alloy forging, J. Mater. Process. Technol., 2004, vol. 151, nos. 1–3, pp. 289–293.

    Article  Google Scholar 

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Funding

Financial support was provided by the Russian Science Foundation (grant no. 23-19-00144, https://rscf.ru/project/23-19-00144/).

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Authors and Affiliations

  1. Almetyevsk State Petroleum Institute, Almetyevsk, Rep. Tatarstan, Russia

    A. V. Nasybullin, A. A. D’yakonov, V. A. Sayakhov, L. R. Shaikhrazieva & L. K. Shaidullin

  2. Tatneft, Almetyevsk, Rep. Tatarstan, Russia

    O. V. Denisov

Authors
  1. A. V. Nasybullin
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  2. A. A. D’yakonov
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  3. V. A. Sayakhov
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  4. O. V. Denisov
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  5. L. R. Shaikhrazieva
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  6. L. K. Shaidullin
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Corresponding authors

Correspondence to A. V. Nasybullin, A. A. D’yakonov, V. A. Sayakhov, O. V. Denisov, L. R. Shaikhrazieva or L. K. Shaidullin.

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Translated by B. Gilbert

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Nasybullin, A.V., D’yakonov, A.A., Sayakhov, V.A. et al. Manufacture of Borehole Pumping Equipment. Russ. Engin. Res. 44, 395–399 (2024). https://doi.org/10.3103/S1068798X24700047

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  • DOI: https://doi.org/10.3103/S1068798X24700047

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