• Покупка статей
  • Telegram_OreMet
Скрыть
Журналы →  Горный журнал →  2024 →  №2 →  Назад

СЫРЬЕВАЯ БАЗА
Название Влияние горно-геологических условий и наличия углекислого газа на эффективность отработки запасов
DOI 10.17580/gzh.2024.02.02
Автор Инякина Е. И., Добролюбова Р. К., Краснов И. И., Инякин В. В.
Информация об авторе

Тюменский индустриальный университет, Тюмень, Россия

Инякина Е. И., доцент, канд. техн. наук
Инякин В. В., старший преподаватель

 

Мирнинский политехнический институт (филиал) СВФУ им. М. К. Аммосова, Мирный, Россия

Добролюбова Р. К., старший преподаватель
Краснов И. И., доцент, канд. техн. наук, iikrasnov17@gmail.com
Реферат

На основе результатов диагностики геолого-промысловых данных при условии содержания углекислого газа в системе выполнен расчет текущих и прогнозных показателей добычи. Дополнительно определены направления усовершенствования реальной системы разработки для повышения эффективности отработки запасов. С целью прогнозирования и обоснования коэффициента извлечения запасов рассмотрены данные лабораторных и аналитических исследований, имитирующих процесс отработки запасов при наличии углекислого газа в системе и с учетом геолого-геофизических особенностей месторождений.
Ключевые слова Отработка запасов, регулирование показателей, условия формирования, коэффициент извлечения, углекислый газ, неравномерность выработки, пластовые потери, погрешность результатов, недоизвлечение запасов, объект разработки
Библиографический список

1. Bartashevich O. V., Ostrovskaya T. D. Mechanisms of change in hydrocarbon content and phases in West Siberian oil and gas province. Trudy VNIIGaz. Moscow : VNIIGAZ, 1982. pp. 92–96.
2. Leontev I. A., Nepomnyashchiy L. Ya. Influence of different components on maximum condensation pressure of reservoir fluids. Theory and Practice of Low-Permeable Gas and Gas-Condensate Reservoirs : Collection of Scientific Papers. Moscow : VNIIGAZ, 1987. pp. 109–113.
3. Bartashevich O. V., Ostrovskaya T. D. Comparative analysis of formation conditions of stacked reservoirs in West Siberia and in the Amu-Darya depression. Trudy VNIIGaz. Moscow : VNIIGAZ, 1984. pp. 83–88.
4. Brusilovskiy A. I. Calculation methods of differential condensation of multi-component systems. Trudy MINKH i GP im. I. M. Gubkina. Moscow : Gostoptekhizdat, 1985. Vol. 182. pp. 67–77.
5. Brusilovskiy A. I. Theoretical Framework for Phase Transformation of Hydrocarbon Mixtures: Tutorial. Moscow : MAKS Press, 2010. 90 p.
6. Brusilovskiy A. I. Phase transformation in oil and gas reservoir development. Moscow : Graal, 2002. 575 p.
7. Gritsenko A. I., Yushkin V. V., Ostrovskaya T. D. Scientific framework for phase behavior prediction in stacked gas condensate reservoirs. Moscow : Nedra, 1995. 432 p.
8. Korchazhin Yu. M. Analysis of gas condensate reservoirs. Development and Operation of Gas and Gas Condensate Reservoirs : Collection of Abstracts. Moscow : Nedra, 1980. No. 3. pp. 25–28.
9. Inyakina E. I., Ostrovskaya T. D., Krasnov I. I., Vaganov E. V. The results of studies of gascondensate characteristics of deposits. Akademicheskiy zhurnal Zapadnoy Sibiri. 2018. Vol. 14, No. 3(74). pp. 41–42.
10. Inyakin V. V. Post-treatment deliverability evaluation of wells at East Urengoy reservoir. Akademicheskiy zhurnal Zapadnoy Sibiri. 2015. Vol. 11, No. 6(61). pp. 13–14.
11. Krasnov I. I., Mikheeva V. A., Matveeva M. V. Experimental studies of phase behavior of multi-component gas condensate systems. Izvestiya vuzov. Neft i gaz. 2006. No. 2(56). pp. 21–26.
12. Krasnov I. I., Mikheeva V. A. Effect of condensation water on reservoir loss of condensate in Urengoy reservoir development. Modern Problems of Natural Science in the Field of Chemistry, Chemical Technology and Oil Development. Science and Technology History–2004 : V International Conference Proceedings. Ufa : Reaktiv, 2005. Vol. 2, Iss. 5. pp. 195–198.
13. Krasnov I. I. Modeling of PVT properties of hydrocarbon mixtures at development of gas condensate fields. Izvestiya vuzov. Neft i gaz. 2009. No. 1(73). pp. 27–31.
14. Krasnova E. I. Effect of spotted reservoir development on the value of condensate recovery. Izvestiya vuzov. Neft i gaz. 2012. No. 5(95). pp. 36–39.
15. Krasnova E. I., Grachev S. I. Assessment of the formation of losses condensate in uneven input of objects in the design. Geologiya, geografiya i globalnaya energiya. 2012. No. 4(47). pp. 16–19.
16. Lapshin V. I. Phase transformations in gas–liquid systems. Gazovaya promyshlennost. 2000. No. 2. pp. 11–13.
17. Kerimov V. Yu., Gasanov A. B., Gurbanov V. Sh., Abbasova G. G. Petrophysical characteristic of deep oil and gas reservoirs in inland and offshore fields in Azerbaijan. Eurasian Mining. 2020. No. 1. pp. 3–8.
18. Kerimov V. Yu., Mustaev R. N., Etirmishli G. D., Yusubov N. P. Influence of modern geodynamic processes on the structure and tectonics of the Black Sea-Caspian Region. Eurasian Mining. 2021. No. 1. pp. 3–8.
19. Nesterov K. V., Kuzenkov M. V. Expanding Kola MMC’S resource base. Tsvetnye Metally. 2019. No. 11. pp. 16–21.
20. Matrokhina K. V., Trofimets V. Ya., Mazakov E. B., Makhovikov A. B., Khaykin M. M. Development of methodology for scenario analysis of investment projects of enterprises of the mineral resource complex. Journal of Mining Institute. 2023. Vol. 259. pp. 112–124.
21. Zakharov E. V. Effects of negative temperatures on crushing rocks of various deposits in Yakutia. Obogashchenie Rud. 2021. No. 4. pp. 3–9.
22. Stepanova G. S. Phase transformations in oil and gas reservoirs. Moscow : Nedra, 1983. 192 p.
23. Duggan J. O. Estimating flow rates required to keep gas wells unloaded. Journal of Petroleum Technology. 1961. Vol. 13, Iss. 12. pp. 1173–1176.
24. Bourgeois M. J., Gommard D. R., Gouas H. Simulating early gas breakthrough in undersaturated oil using alpha-factors. Abu Dhabi International Petroleum Exhibition and Conference. Abu Dhabi, 2012. pp. 214–231.
25. Cavett R. H. Physical data for distillation calculation, vapour-liquid equilibria. Proceedings of the Annual API Meeting. San Francisco, 1964.
26. Danesh A., Henderson G. D., Peden J. M. Experimental investigation of critical condensate saturation and its dependence on connate water saturation in water-wet rocks. SPE Annual Technical Conference and Exhibition. San Antonio, 1989.
27. Ostrovskaya T. D., Gritsenko I. A. Analysis of gas condensate mixture containing N2, H2S and СО2. Gazovaya promyshlennost. 1983. No. 8. pp. 31–32.
28. Ostrovskaya T. D., Gritsenko I. A., Zheltovskiy V. I. Corection method for carbon dioxide infleucne on phase transformation in bedded structures. Gazovaya promyshlennost. 1988. No. 1. pp. 44–45.
29. Katanova R. K., Inyakina E. I., Alsheikhly M. D. Z., Krasnov I. I. Estimation of the influence of oil flows on the formation losses of condensate during the development of multi-layer deposits. IOP Conference Series: Earth and Environmental Science. 2022. Vol. 988, No. 2. ID 022067.
30. Vaganov E. V., Inyakin V. V., Krasnov I. I., Katanova R. K. Results of the study of the productive characteristics of wells in the development of gas condensate deposits. IOP Conference Series: Earth and Environmental Science. 2022. Vol. 988, No. 3. ID 032029.
31. Katanova R. K., Tomskiy K. O., Inyakina E. I., Ivanova M. S. Forecasting formation losses of hydrocarbons in the process of development of oil and gas condensate deposits. IOP Conference Series: Earth and Environmental Science. 2022. Vol. 988, No. 3. ID 032028.
32. Zeinalabideen M. J. Katanova R. K., Inyakina E. I., Krasnov I. I. Study of the effect of formation water during reserves estimation and designing hydrocarbon recovery of oil and gas condensate fields. Periodicals of Engineering and Natural Sciences. 2020. Vol. 8, No. 4. pp. 2029–2034
Language of full-text русский
Полный текст статьи Получить
Назад