«Proceedings of Gubkin University»

Regenerating power by borehole rod pumps

UDC: 621.333.4
DOI: -

Authors:

¹ Kinemak Energy, Moscow, Russian Federation
² National University of Oil and Gas “Gubkin University”, Moscow, Russian Federation

Keywords: oil production, borehole rod pumps, frequency-controlled drives, energy regeneration, renewable sources, KBK effect

Annotation:

The process of regenerative operation of electric drives of rod borehole pumps in the power systems of oil production sites has been used for a long time. However, until the advent of frequency-controlled converters for controlling the operation of electric pump motors, there was practically no possibility of reuse of regenerative energy. The purpose was to study the conditions for the effective use of regeneration in field areas, to preliminarily determine the amount of this energy produced by oil producing companies, to compare this process with those in other technical fields, to establish the nature of the renewability of this energy source, and to compare it with similar characteristics of other "green" energy technologies. It was that the volume of regenerated energy of rod oil pumps in Russia is comparable to the production of solar power plants. At the same time, the capital costs of organizing the operation of this new type of energy generation are significantly less than those of other renewable energy technologies. In addition to reducing the cost of purchasing electricity for oil production, the repeated use of recovery reduces the operating costs of servicing the technological equipment of the well clusters.

Bibliography:

1. Kamaletdinov R.S. Mekhanizirovannaya dobycha nefti: novye vyzovy – novye resheniya // Neftegaz.RU. – 2023. – № 4 (136). – S. 32–37.
2. Rezul’taty stendovyh issledovanij raboty skvazhinnogo shtangovogo nasosa v oslozhnennyh usloviyah ekspluatacii / V.N. Ivanovskij, A.A. Sabirov, T.R. Dolov [i dr.] // Oborudovanie i tekhnologii dlya neftegazovogo kompleksa. – 2022. – № 5 (131). – S. 49–56. – DOI: 10.33285/1999-6934-2022-5(131)-49-56
3. Energopotreblenie i energoeffektivnost’ dobychi i podgotovki nefti: uchebnoe posobie / V.N. Ivanovskij, A.V. Degovcov, A.A. Sabirov [i dr.]. – M.: Izdatel’skij centr RGU nefti i gaza (NIU) imeni I.M. Gubkina, 2020. – 529 s.
4. Hakim’yanov M.I. Povyshenie energeticheskoj effektivnosti skvazhinnyh nasosov mekhanizirovannoj dobychi nefti // Energetik. – 2016. – № 5. – S. 36–38.
5. Yashin A.N., Hakim’yanov M.I. Uravnoveshennost’ ustanovok skvazhinnyh shtangovyh nasosov na osnove analiza vattmetrogramm // Izvestiya Tomskogo politekhnicheskogo universiteta. Inzhiniring georesursov. – 2021. – T. 332, № 8. – S. 36–44. – DOI: 10.18799/24131830/2021/8/3303
6. Sedyh A.A., Trubavin S.N. Rezul’taty ispytaniya gidroficirovannyh privodov SHSN v OAO “Orenburgneft’ ” // Oborudovanie i tekhnologii dlya neftegazovogo kompleksa. – 2012. – № 3. – S. 43–45.
7. A comparative study of energy storage systems and active front ends for networks of two electrified RTG cranes / F. Alasali, A. Luque, R. Mayer, W. Holderbaum // Energies. – 2019. – № 12 (9). – P. 1771. – DOI: 10.3390/en12091771
8. Kacaj A.V., Sharyakov V.A. Ob’’emy rekuperativnoj energii tramvaev i trollejbusov // Izvestiya vysshih uchebnyh zavedenij. Problemy energetiki. – 2024. – T. 26, № 6. – S. 40–52. – DOI: 10.30724/1998-9903-2024-26-6-40-52
9. Kacaj A.V., Bizyaev A.A., Kozarevich V.A. Effekt pitaniya poleznoj setevoj nagruzki izbytochnoj energiej rekuperacii v hode zaryadki stacionarnogo nakopitelya // Energeticheskie sistemy. – 2022. – № 4. – S. 80–86. – DOI: 10.34031/ES.2022.4.008
10. Tarasov V.P., Kaverin M.N., Yakimov S.B. Sravnenie energopotrebleniya pri razlichnyh sposobah mekhanizirovannoj dobychi po ryadu predpriyatij OAO “NK “Rosneft’ ” // Nauchno-tekhnicheskij vestnik OAO “NK “Rosneft’ ”. – 2014. – № 3. – S. 5–11.
11. Pietrosanti S., Holderbaum W., Becerra V.M. Optimal power management strategy for energy storage with stochastic loads // Energies. – 2016. – № 9 (3). – P. 17. – DOI: 10.3390/en9030175
12. Liebherr. Kozlovye krany na pnevmokolesnom hodu. – URL: https://www.liebherr.com/ru-ru/морские-краны/продукция/портовое-оборудование/козловые-краны-на-пневмоколесном-ходу-4479757?accordionModule-4478821-4478826-19=rtg-elettrica&accordionModule-4478821-4478826-19=trazione-diesel-tradizionale-con-controllo-del-regime-a-due-punti&accordionModule-4478821-4478826-19=regime-variabile&accordionModule-4478821-4478826-19=ibrido-diesel-elettrico#ibrido-diesel-elettrico
13. Avdoshin V.S. Povyshenie effektivnosti funkcionirovaniya sistemy rekuperacii elektricheskoj energii s reaktivno-ventil’nymi elektrodvigatelyami v mnogodvigatel’nyh pod’’emno-transportnyh mekhanizmah: dis. ... kand. tekhn. nauk. – Tula: FGBOU VPO “Tul’skij gosudarstvennyj universitet”, 2017. – 118 s.
14. Sistemnyj operator EES Rossii. – URL: https://www.so-ups.ru/fileadmin/files/company/markets/2022/res/res_dec_22.pdf
15. Vozobnovlyaemaya energetika v Rossii i mire // Informacionnyj doklad. – M.: REA Minenergo Rossii, 2022. – 105 s.