Investigation of the influence the pressure of the start of dry gas injection on the condensate recovery factor of gas condensate fields

Authors

  • S. V. Matkivskyi АТ "Укргазвидобування"

DOI:

https://doi.org/10.31471/1993-9868-2022-1(37)-41-49

Keywords:

digital modeling, gas condensate reservoir, reservoir energy depletion, retrograde condensation, condensate loss, reservoir pressure maintenance, dry gas injection, enhanced hydrocarbon recovery.

Abstract

Using the software packages Eclipse and Petrel, studies were carried out to increase the hydrocarbon recovery of gas condensate fields with a high content of condensate in the reservoir gas. The aim of the work is to optimize the technology of reservoir pressure maintenance using dry gas. The study was carried out for different stages of depletion of the gas condensate reservoir. The pressure of the start of dry gas injection into the reservoir is: 1 Pinit; 0.8 Pinit; 0.6 Pinit; 0.4 Pinit; 0.2 Pinit.Based on the results of the studies, it was found that when introducing the technology of injecting dry gas into a gas condensate reservoir, reservoir pressure is maintained at a higher level compared to depletion development. Due to this, stabilization of the existing operating modes of producing wells is achieved and additional hydrocarbon production is ensured. The cumulative production of condensate for different pressures of the start of dry gas injection into the productive reservoir is: 1 Pinit 398.25 th.m3; 0.8 Pinit 384.73 th.m3; 0.6 Pinit371.46 th.m3; 0.4 Pinit 360.69 th.m3; 0.2 Pinit 345.22 th.m3. Analyzing the results of the conducted studies, it was found that the higher the reservoir pressure in the gas condensate reservoir at the time of the introduction of the dry gas injection technology, the greater the condensate production. Based on the results of the analysis of the calculated data, the optimal value of the pressure for the beginning of dry gas injection into the productive reservoir was determined, which is 0.842 Рinit. The increase in the final condensate recovery factor for the given optimal value of the dry gas injection start pressure is 7.26 % compared to the development of the reservoir for depletion. The results of the studies carried out testify to the high technological efficiency of the introduction of reservoir pressure maintenance technologies in the development of gas condensate fields with significant condensate reserves.

 

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References

Burachok O., Kondrat O., Matkivskyi S. Investigation of the efficiency of gas condensate reservoirs waterflooding at different stages of

development. Global Trends, Challenges and Horizons. Dnipro. Ukraine. 2020. P. 1-11. https://doi.org/10.1051/e3sconf/202123001010

Kondrat R.M. Gazokondensatootdacha plastov. M.: Nedra. 1992. 255 p. [in Russian]

Davidovskiy A., Abramochkin S., Lopatina N. Multiphase Gas-Condensate Metering Tests with Individual Fluid Properties Model (Russian). Society of Petroleum Engineers. 2017. https://doi.org/10.2118/187753-RU

Bikman Ye. Forecasting Hydrocarbon Production at Gas Condensate Fields Considering Phase Transformations of Reservoir Systems. SPE Eastern Europe Subsurface Conference. Kyiv. Ukraine. 2021. https://doi.org/10.2118/208562-MS

Li. Dzh., G. Nikens, M. Uells. Ekspluatatsiya obvodnyayuschihsya gazovyih skvazhin: per. s angl. M.: OOO «Premium Inzhiniring», 2008. 384 p. [in Russian]

Kryvulia S.V., Bikman Ye.S., Kondrat O.R., Matkivskyi S.V. Perspektyvy dorozrobky gazokondensatnykh rodovyshch iz znachnymy

zapasamy retrogradnogo kondensatu: Materialy mizhnarodnoi naukuvo-tekhnichnoi konferentsii “Naftogazova galuz: Perspektyvy naroshchuvannia resursnoi bazy”, 8-9 December 2020, Ivano-Frankivsk. P 99-102/

Meng X., Yu Y., Sheng J., Watson M. An Experimental Study on Huff-n-Puff Gas Injection to Enhance Condensate Recovery in Shale Gas Reservoirs. Unconventional Resources Technology Conference, 20-22 July 2015, San Antonio, Texas, USA. https://doi.org/10.15530/URTEC-2015-2153322

Gurevich G. R. Sposobyi povyisheniya kondensatootdachi plastov. Ezhegodnik «Itogi nauki itehniki». Seriya «Razrabotka neftyanyih i gazovyih mestorozhdeniy». 1985. Vol. 16. P. 132-184. [in Russian]

Thomas F., Holowach N., Zhou X.,

Bennion D. Optimizing Production From Gas Con-densate Reservoirs. Petroleum Society of Canada. Annual Technical Meeting, June 12 – 15.1994, Calgary, Alberta. https://doi.org/10.2118/94-04

Burakov Yu., Ulyashev V., Guzhov N. Analiz effektivnosti mehanizma vodogazovogo vozvedeniya na vyipavshey v plaste kondensat. Gazovaya promyishlennost». 1991. No 7. P. 29-30. [in Russian]

Fishlock T., Probert C. Waterflooding of Gas Condensate Reservoirs. Society of Petroleum Engineers. 1996. https://doi.org/10.2118/35370-PA

Matkivskyi S., Khaidarova L. Increasing the Productivity of Gas Wells in Conditions of High Water Factors. Eastern Europe Subsurface Conference. Kyiv. Ukraine, 2021. Р. 1-16 https://doi.org/10.2118/208564-MS

Mirzadzhanzade, A.G. Durmishyan, A.G. Kovalev [i dr]. Razrabotka gazokondensatnyih mestorozhdeniy. M.: Nedra, 1987. 356 p. [in Russian]

Kondrat R. M., Seredynskyi D. Yu., Kondrat O. R. Doslidzhennia zastosuvannia vuhlekysloho hazu dlia vyluchennia zalyshkovoi nafty z obvodnenykh naftovykh pokladiv. Rozvidka ta rozrobka naftovykh i hazovykh rodo-vyshch. 2010. No 2(35). P. 26-30. [in Ukrainian]

Ter-Sarkisov R.M., Peshkin M.A. Primenenie dvuokisi ugleroda dlya izvlecheniya vyipavshego v plaste kondensata. Voprosyi proektir. i ekspl. mestorozhd. so slozhnyim sostavom gaza. M.: VNIIgaz, 1983. P. 83-92. [in Russian]

Gorodnov V.P. Mihnevich V.G., Tulbovich B.Ch. Effektivnost vyitesneniya ostatochnoy nefti otorochkoy mitsellyarnogo rastvora. Problemyi uvelicheniya nefteotdachi na mestorozhdeniyah Permskoy oblasti. M.: Nedra, 1980. P. 32 - 35. [in Russian]

Peshkin M.A. Vyitesnenie vyipavshego kondensata otorochkoy glevodorodnogo mitsellyar-nogo rastvora. Gazovaya promyishlennost. 1977. No 2. P. 35-36. [in Russian]

Ter-Sarkisov R.M. Ispolzovanie oboga-schennogo gaza dlya povyisheniya kondensato-otdachi. Gazovaya promyishlennost. 1982. No 10. P. 26-28. [in Russian]

Kundin S.A. Sposob razrabotki gazokon-densatnykh i neftegazokondensatnykh mesto-rozhdeniy. Opubl. 1968, Byul. No30. [in Russian]

Zabrodin P.I., Rakovskiy N.L., Rozenberg M.D. Vyitesnenie nefti iz plastarastvoritelyami. M.: Nedra, 1968. 224 p. [in Russian]

Gritsenko A.I., Ter-Sarkisov R.M., Klapchuk O.V. [i dr.]. Zakachka zhidkih uglevodo-rodov v plast dlya povyisheniya neftekondensato-otdachi. Razrab. i ekspl. gaz. i gazokondens. mestorozhd. M: VNIIEgazprom. 1980. No 6. 39 p. [in Russian]

Ter-Sarkisov R.M., Peshkin M.A., Bikman E.S. Obrabotka prizaboynoy zonyi gazokondensatnoy skvazhinyi dvuokisyu ugleroda. Neftyanaya i gazovaya promyishlennost. 1989.

No 1. P. 33-35. [in Russian]

Ter-Sarkisov R.M., Nikolaev V.A., Solovev O.N. [i dr.]. Intensifikatsiya rabotyi skvazhin s pomoschyu uglevodorodnyih rastvoriteley na Vuktilskom gazokondensatnom mestorozhdenii. Osobennosti osvoeniya mestorozhdeniy Prikaspiyskoy vpadinyi. M.: VNIIgaz, 1966. P. 67-71. [in Russian]

Burachok O., Kondrat O., Matkivskyi S., Pershyn D. Comparative Evaluation of Gas-Condensate Enhanced Recovery Methods for Deep Ukrainian Reservoirs: Synthetic Case Study.

Europec featured at 82nd EAGE Conference and Exhibition, Amsterdam. The Netherlands. 2021. https://doi.org/10.2118/205149-MS

Bikman Ye.S., Diachuk V.V.. Optymizatsiia system rozrobky hazokondensatnykh rodovyshch Ukrainy z vysokym vmistom vuhlevodniv S5+ v plastovomu hazi. Problemy naftohazovoi promyslovosti. 2006. №3. P. 165–168. [in Ukrainian]

Bikman Ye.S., Yehorov S.O., Kurochkin K.S. Tekhnolohiia zbahachennia hazu azotom pry saiklinh-protsesi na Tymofiivskomu ta Kuly-chykhynskomu NHKR z odnochasnym vyrob-nytstvom metanolnoho produktu. Kompressornoe y enerhetycheskoe mashynostroenye. 2014.

No 1 (35). C. 2-6. [in Ukrainian]

Matkivskyi S., Kondrat O. The influence of nitrogen injection duration at the initial gas-water contact on the gas recovery factor. Eastern-European Journal of Enterprise Technologies. 2021. No 1(6 (109), P. 77–84. https://doi.org/10.15587/1729-4061.2021.224244

Matkivskyi S., Kondrat O. Studying the influence of the carbon dioxide injection period duration on the gas recovery factor during the gas condensate fields development under water drive. Mining of Mineral Deposits. 2021. Volume 15. Issue 2. P. 95-101. https://doi.org/10.33271/

mining15.02.095

Taber J.J., Martin F.D., Seright R.S. EOR Screening Criteria Revisited – Part 2: Applications and Impact of Oil Prices. SPE Reservoir Engineering, 1997. August. Р. 199-205. https://doi.org/10.2118/39234-PA

Salem Al Attas Safe Execution of a World Class EGR Facility in Abu Dhabi – The Elixier Mirfa Project. International Petroleum Technology Conference. Doha. Qatar. 2014. https://doi.org/10.2523/IPTC-17627-MS

Published

30.06.2022

How to Cite

Matkivskyi, S. V. (2022). Investigation of the influence the pressure of the start of dry gas injection on the condensate recovery factor of gas condensate fields. Oil and Gas Power Engineering, (1(37), 41–49. https://doi.org/10.31471/1993-9868-2022-1(37)-41-49

Issue

Section

SCIENTIFIC AND TECHNICAL PROBLEMS OF PETROLEUM ENGINEERING

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