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Scientific and technical journal

«Oilfield engineering»

ISSN 0207-2351

In this issue
Oilfield engineering
In this issue
№1 (685), January 2025
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Development of remote gas condensate fields in the republic of Sakha (Yakutia). Current state of the regional gas industry and building of an integrated model as a digital twin

UDC: 622.279
DOI: -

Authors:

IVANOV DENIS A.1,
USMANOV MARAT U.2,
ERMOLAEV ALEXANDER I.3,
USHAKOVA ALEXANDRA S.4,5

1 LUKOIL-Engineering, Moscow, Russia
2 MiMGO, Moscow, Russia
3 National University of Oil and Gas "Gubkin University", Moscow, Russia
4 Sergo Ordzhonikidze Russian State university for Geological Prospecting, Moscow, Russia
5 Institute of Oil and Gas Problems, Russian Academy of Science, Moscow, Russia

Keywords: Lena-Vilyuy oil- and gas-bearing province, natural gas, integrated model, gas condensate fields, Yakutia

Annotation:

A specific region, the Lena-Vilyuy petroleum province in the Russian Far Eastern Federal District has been considered by the authors of the article, including prospective fields and resources. The current state of the gas industry in the region and the characteristics of both existing and prospective development projects, including hard-to-recover resources have been described. Geological, hydrodynamic and integrated models of several assets in the region have been created. The main conclusions made following the models designing and building are presented. The assets were considered as part of the resource base within the frames of implementation of a possible large capacity LNG project or other options. The studied assets lie in production and satisfy local consumption. The integrated model of the current field served as a digital twin. The developed models were used for improving current operational performance indicators and optimizing a long term strategy of the project. The methodology used for building an integrated model of a new multi-layered gas condensate field, including the selection of an optimal development scheme and gathering system, is described in detail.

Bibliography:

1. Ivanov D.A., Ermolaev A.I., Ushakova A.S. Razrabotka udalennykh gazokondensatnykh mestorozhdeniy v Respublike Sakha (Yakutiya) s posleduyushchim eksportom v vide szhizhennogo prirodnogo gaza. Analiz resursnoy bazy i tekhnologiy // Neftepromyslovoe delo. – 2025. – № 8(680). – S. 53–61.

2. Katagenez rasseyannogo organicheskogo veshchestva i otsenka neftegeneratsionnogo potentsiala verkhnepermskikh otlozheniy Vilyuyskoy sineklizy / I.N. Zueva, O.N. Chalaya, A.F. Safronov, V.A. Kashirtsev // Nauka i obrazovanie. – 2014. – № 2(74). – S. 110–117.

3. Pogodaev A.V. Vliyanie rezhima anomal’no vysokogo plastovogo davleniya na usloviya formirovaniya i sokhraneniya zalezhey gaza v verkhnepermskikh otlozheniyakh Khapchagayskogo megavala // Neftegazovaya geologiya. Teoriya i praktika. – 2018. – T. 13, № 4. – DOI: 10.17353/2070-5379/39_2018

4. Tomilova N.N., Yurova M.P. Nizhnetriasovye vulkanogennye lovushki gaza Yakutii: genezis, stroenie kollektora, osobennosti osvoeniya // Nauchno-tekhnicheskiy sbornik Vesti gazovoy nauki. – 2012. – № 1(9). – S. 208–216.

5. Chernenko V.B., Sivtsev A.I., Sitnikov V.S. Osobennosti geologicheskogo stroeniya i perspektivy neftenosnosti Sobolokh-Nedzhelinskogo gazokondensatnogo mestorozhdeniya // Nauka i obrazovanie. – 2013. – № 4(72). – S. 24–32.

6. Perspektivnye zony neftegazonakopleniya v taragayskoy svite verkhney permi v yugo-zapadnoy chasti Vilyuyskoy sineklizy / G.A. Cherdantsev, I.A. Kushmar, V.P. Semenov, L.K. Yashenkova // Neftegazovaya geologiya. Teoriya i praktika. – 2020. – T. 15, № 3. – DOI: 10.17353/2070-5379/31_2020

7. Perspektivy dobychi prirodnogo gaza v Vostochnoy Sibiri i na Dal’nem Vostoke s uchetom osobennostey struktury i lokalizatsii zapasov / I.V. Filimonova, A.A. Kartashevich, I.V. Provornaya [i dr.] // Neftegazovaya geologiya. Teoriya i praktika. – 2024. – T. 19, № 2. – URL: https://www.ngtp.ru/rub/2024/16_2024.html

8. Sukhodolov Ya.A. Realizatsiya vostochnoy gazovoy programmy i perspektivy osvoeniya gazovykh resursov Vostochnoy Sibiri // Izvestiya Irkutskoy gosudarstvennoy ekonomicheskoy akademii. – 2014. – № 6. – S. 63–71. – DOI: 10.17150/1993-3541.2014.24(6).63-71

9. Zheleznyak M.N., Semenov V.P., Shats M.M. Uglevodorodnye resursy Vilyuyskoy sineklizy // Nauka i tekhnika v gazovoy promyshlennosti. – 2019. – № 3(79). – S. 3–19.

10. Elyakova I.D. Otsenka effektivnosti investitsionnogo proekta gazokondensatnogo mestorozhdeniya v Yakutii // Uchenye zapiski Sankt-Peterburgskogo universiteta upravleniya i ekonomiki. – 2014. – № 4(48). – S. 80–87.

11. Integrirovannyy podkhod k vyboru kontseptsii obustroystva unikal’nogo gazokondensatnogo mestorozhdeniya / A.V. Poushev, T.I. Gataullin, A.V. Sullagaev, A.V. Prokopenko // Gazovaya promyshlennost’. – 2019. – № 2(780). – S. 52–59.

12. Podkhod k sozdaniyu integrirovannoy modeli dlya shel’fovogo gazokondensatnogo mestorozhdeniya pri sovmestnoy ekspluatatsii neskol’kikh ob"ektov razrabotki / K.A. Velaskes, E.V. Chernobrovin, M.S. Bel’tyukova [i dr.] // Neftepromyslovoe delo. – 2023. – № 5(653). – S. 25–37. – DOI: 10.33285/0207-2351-2023-5(653)-25-37

13. Modelirovanie rezhimov ekspluatatsii protyazhennogo rel’efnogo truboprovoda mnogofaznogo flyuida na nachal’noy stadii osvoeniya gazokondensatnogo mestorozhdeniya / A.V. Kononov, V.A. Marishkin, A.A. Rotov [i dr.] // Gazovaya promyshlennost’. – 2022. – № S2(833). – S. 90–95.

14. Moskvin S.A., Vil’danov T.F., Dzhumyazova N.A. Razrabotka instrumenta dlya integratsii gidrodinamicheskoy modeli i modeli sistemy sbora // Neftepromyslovoe delo. – 2025. – № 10(682). – S. 45–48.

15. O rezul’tatakh primeneniya integrirovannoy modeli pri podgotovke proektnogo dokumenta na razrabotku gazokondensatnogo mestorozhdeniya Yamalo-Nenetskogo avtonomnogo okruga / S.O. Samokhin, R.O. Mekhonoshin, K.E. Kordik [i dr.] // Neftepromyslovoe delo. – 2025. – № 7(679). – S. 32–39.

16. Opyt sozdaniya integrirovannoy modeli vremennogo podzemnogo khranilishcha gaza na Verkhnechonskom neftegazokondensatnom mestorozhdenii dlya upravleniya zakachkoy gaza / A.N. Levanov, A.S. Borger, V.M. Brinster [i dr.] // Neftyanoe khozyaystvo. – 2025. – № 6. – S. 82–87. – DOI: 10.24887/0028-2448-2025-6-82-87

17. Opisanie podkhodov k sozdaniyu modeley skvazhin dlya posleduyushchego postroeniya integrirovannoy modeli / R.R. Kashapov, A.A. Kil’dyushov, T.I. Ganiev [i dr.] // Neftepromyslovoe delo. – 2025. – № 2(674). – S. 28–34.

18. Opisanie podkhodov k postroeniyu PVT-modeli dlya posleduyushchego sozdaniya integrirovannoy modeli / R.R. Kashapov, R.R. Kil’dyushov, T.I. Ganiev, I.N. Yarmukhametov // Neftepromyslovoe delo. – 2024. – № 3(663). – S. 21–30.

19. Kamenskikh A.A., Vereshchagin V.V. Razrabotka instrumenta dlya otsenki parametrov raboty sistemy sbora i transporta nefti na osnove integrirovannoy modeli // Neftepromyslovoe delo. – 2025. – № 5(677). – S. 54–60.

20. Trufanov S.V., Meshcheryakov M.S. Modelirovanie protsessa razrabotki gazovogo mestorozhdeniya s uchetom vliyaniya nazemnoy infrastruktury // Gazovaya promyshlennost’. – 2024. – № 3(862). – S. 36–41.