The article discusses research on finding the optimal parameters of the
technological operating mode of wells that minimize the water cut of well production, based on a
detailed analysis of the geological and field characteristics of the deposit and materials from gashydrodynamic studies. Using the example of well 77 of the Sharkiy Berdak gas condensate field, the
optimal parameters of the technological mode of its operation with minimal removal of formation
water in its production were determined according to the data of gas-hydrodynamic studies. Analyzing
the obtained results of processing data from gas-hydrodynamic studies, recommendations were made
to install a 12 mm nozzle as the optimal operating mode with minimal removal of formation water.
The article discusses research on finding the optimal parameters of the
technological operating mode of wells that minimize the water cut of well production, based on a
detailed analysis of the geological and field characteristics of the deposit and materials from gashydrodynamic studies. Using the example of well 77 of the Sharkiy Berdak gas condensate field, the
optimal parameters of the technological mode of its operation with minimal removal of formation
water in its production were determined according to the data of gas-hydrodynamic studies. Analyzing
the obtained results of processing data from gas-hydrodynamic studies, recommendations were made
to install a 12 mm nozzle as the optimal operating mode with minimal removal of formation water.
№ | Муаллифнинг исми | Лавозими | Ташкилот номи |
---|---|---|---|
1 | Shevtsov V. . | Independent researcher | 1Tashkent State Technical University Named After Islam Karimov |
2 | Igamberdieva .Z. | Independent researcher | 1Tashkent State Technical University Named After Islam Karimov |
3 | Zakirov .A. | Independent researcher | 1Tashkent State Technical University Named After Islam Karimov |
№ | Ҳавола номи |
---|---|
1 | 1. SHevtsov V.M. i dr. Korrektivy proekta razrabotki gazokondensatnogo mestorozhdeniya SHarkij Berdakh. Otchyot AO «O‘ZLITINEFTGAZ», 2022 g. 2. Gritsenko A.I., Aliev Z.S., Ermilov O.M. i dr. Rukovodstvo po issledovaniyu skvazhin. M., Nauka, 1995. 3. Nazarov U.S., SHevtsov V.M. i dr. Polozhenie o geologo-gidrodinamicheskom kontrole za razrabotkoj mestorozhdenij. NGH 39.0-110:2022. 4. Instruktsiya po kompleksnomu issledovaniyu gazovykh i gazokondensatnykh plastov i skvazhin M. Nedra. 1980. 5. Bekov B.KH., Igamberdieva L.Z., SHimko YA.V. Osobennosti sistemy razrabotki mnogoplastovykh gazovykh i gazokondensatnykh mestorozhdenij // Mater. Mezhdun. nauch.-tekhn. konf. «Aktual'nye problemy neftegazovoj geologii i osvoeniya uglevodorodnogo potentsiala nedr i puti ikh resheniya». 2023 g., pp. 401-406. 6. Igamberdieva L.Z. Otsenka ehffektivnosti sovmestnoj i razdel'noj ehkspluatatsii produktivnykh gorizontov // Mater. resp. nauch.-prakt. konf. “Sovremennye tekhnika i tekhnologii neftegazovoj otrasli, innovatsionnoe reshenie problem”. 2022 g. pp. 323-329. |
2 | 7. Zakirov A.A., Zakirov R.T., Igamberdieva L.Z. Nekotorye aspekty dal'nejshego razvitiya neftegazodobyvayushhej promyshlennosti Uzbekistana // Uzbekskij zhurnal nefti i gaza. – Tashkent 2023 g. № 2. pp. 24-30. 8. Zakirov A.A., Agzamov A.A., Igamberdieva L.Z. Sozdanie opytnykh innovatsionnykh poligonov s tsel'yu povysheniya nefteotdachi plastov na neftegazovykh mestorozhdeniyakh Uzbekistana // Mater. resp. nauch.- tekhn. konf. «Innovatsionnye tekhnologii osvoeniya mestorozhdenij nefti i gaza». – Tashkent, 2017 g. – pp. 33- 38. 9. Nazarov U.C., Makhmudov F.M., Igamberdieva L.Z. K strategii innovatsionnoj deyatel'nosti pri razrabotke mestorozhdenij nefti Uzbekistana // Uzbekskij zhurnal nefti i gaza. Spets. Vypusk 2014 g. pp. 128-136. |
3 | 10. Igamberdieva L.Z. K voprosu o dal'nejshej strategii razrabotki neftegazokondensatnykh mestorozhdenij Uzbekistana // Nauch.-tekhn. konf. «Neft' i Gaz Uzbekistan». Sb. nauch. tr. OGU-2019 g. 2019 g. pp. 64-70. 11. A.A. Zakirov. Otsenka perspektiv dal'nejshego osvoeniya gazokondensatnoj chasti mestorozhdeniya Umid. // Problemy ehnergo- i resursosberezheniya, 2005, № 1, rr. 37-40. 12. Nazarov U.C., Makhmudov F.M., Igamberdieva L.Z. Strategiya innovatsionnoj deyatel'nosti pri razrabotke neftyanykh i neftegazokondensatnykh mestorozhdenij Uzbekistana // Vestnik TashGTU, № 1. Tashkent 2013 g. pp. 45-53. |
4 | 13. Zakirov A.A., Igamberdieva L.Z. Analiz ehffektivnosti razrabotki mestorozhdeniya Zekry // Mater. resp. 18-j mezhdistsip. dist. onlajn konf. «Nauchnoprakticheskie issledovaniya v Uzbekistane». CH. 6, Tashkent, 2020, pp. 23-26. 14. Khalismatov I., Zakirov R.T, Zakirov A.A, Ganikhanova M.B. Features of the operation of watering gas wells in the Shimoliy Berdakh field. // International Journal of Advanced Research in Science, Engineering and Technology, Vol. 7, Issue 12, December 2020, pp. 15932- 15936. 15. Irmukhamat Khalismatov, Ravshan Zokirov, Azamjon Zakirov, Bekhzod Abdurakhmanov, Nargiza Botirova, Nargiza Akhmedova. Main types of reservoirs of pre-Jurassic deposits in the Ustyurt region. // 4th International Conference on Energetics, Civil and Agricultural Engineering (ICECAE-2023), E3S Web of Conf., Vol. 434, 2023, https://doi.org/10.1051/e3sconf/202343402024 |
5 | 16. Agzamov, A. Zakirov, L. Igamberdieva, S. Agzamova. Rheological properties of polymer solutions and ways to improve the efficiency of development of high-viscosity oil fields in Uzbekistan. // 5th International Conference on Energetics, Civil and Agricultural Engineering (ICECAE 2024), E3S Web of Conf., Vol. 497, 2024, https://doi.org/10.1051/e3sconf/202449701024 |