GAZ VA GAZKONDENSAT KONLARI QUDUQLARIDA YO‘QOTILAYOTGAN  TABIIY GAZ MIQDORI

Admin bo'lib kirish (www.admin.slib.uz)

Tizim sinov (TEST) rejimida ishlamoqda! Murojat uchun @slib_support

Eski talqinga o'tish link

12 июн 2025

Asosiy til:O'zbek

GAZ VA GAZKONDENSAT KONLARI QUDUQLARIDA YO‘QOTILAYOTGAN TABIIY GAZ MIQDORI

Fan yo'nalishi:

684a619181fd3.pdf

PDF

ILM-FAN VA INNOVATSION RIVOJLANISH

Maqola chop etish see more

MAQOLA ANNOTATSIYASI

So‘nggi yillarda dunyоda qаzib оlinishi qiyin bо‘lgan gaz zaxiralari soni ortmoqda. Shu bilan birga, mаhsuldоr quduqlаrning suvlаnishi va murаkkab shаrоitlarda ularni samarali ishlаtish masalalari tobora dolzarb bo‘lib bormoqda. Gaz va gazkоndensat quduqlаrining suvlanishi ularni qаzib chiqаrish jarаyоnida jiddiy muammоlarni yuzaga keltiradi. Gaz va gazkondensat konlarida quduqlarni ishlatishning yakuniy bosqichida qatlam bosimi va oqim tezligining pasayishi natijasida quduqlar tubida suyuqlik to‘planishi sodir bo‘ladi. Bu esa bosim yo‘qotishlarining ortishi, quduqlar debitining kamayishi va uglevodorodlarning komponent bera oluvchanligining pasayishiga olib keladi. Bugungi kunda ushbu muammoni bartaraf etish uchun produvkа usulidаn foydаlanilmоqda. Gazning bevosita atmosferaga chiqarilishi orqali amalga oshiriladigan ushbu usul gaz yo‘qotilishiga sabab bo‘ladi, bu esa atrof-muhit va quduqning yaqin zonalariga salbiy ta’sir ko‘rsatadi. Ushbu maqolada O‘zbekiston Respublikasi gaz va gazkondensat konlarida quduq tubida yig‘ilgan suyuqliklarni yer yuzasiga chiqarish uchun qo‘llangan produvka usuli, shuningdek, gaz va gazkondensat konlari quduqlarining o‘z-o‘zidan tiqilishi natijasida yo‘qotilayotgan tabiiy gaz miqdori tahlil qilingan.

MUALIFLAR

Teglar

# расход газа# газовые и газоконденсатные место# накопление жидкости# gaz va gazkondensat konlari# quduq tubi# quduq tubi zonasi# suyuqlik yig‘ilishi# produvka# gaz sarfi# забой скважины# призабойная зона# продувка# gas and gas condensate �ields# well bottom# bottomhole zone# liquid accumulation# blowdown# gas consumption

Maqolani baholang

0

0 ta

Maqola idintifikatorlari

ROI:

https://eroi.uz/11.0094/A0625-0033

DOI:

Mavjud emas

Foydalanilgan adabiyotlar

Bilyanskiy, K. V. (2020). Borʹba s obvodneniyem skvazhin [Combatting well water invasion]. Molodoy Uchyonyy – Young Scientist, 7(297), 16–18.

Chernov, I. V. (2016). Geologicheskaya izuchennostʹ mestorozhdeniy Yugo-Zapadnogo Uzbekistana [Geological study of the deposits of South-Western Uzbekistan]. Territoriya Neftegaz – Oil and Gas Territory, (6), 40–47.

Chernova, V. V., Verzhbitskiy, V. V., & Maslyukov, R. S. (2018). Effektivnostʹ primeneniya tsiklicheskoy produvki gazokondensatnykh skvazhin na mestorozhdeniyakh Bolʹshogo Urengoya [Ef�iciency of applying cyclic blowdown at gas condensate wells of the Bolshoy Urengoy �ield]. In Aktualnye problemy neftegazovoy otrasli Severo-Kavkazskogo federalʹnogo okruga – Topical Issues of the Oil and Gas Industry of the North Caucasus Federal District (pp. 267–271). Stavropol.

Gasumov, E. R. (2020). Prognozirovaniye vremeni obvodneniya i samozadavlivaniya gazovykh skvazhin (na primere Senomanskoy zalezhi) [Forecasting water breakthrough and self-kill of gas wells (example of Cenomanian reservoir)]. Yevraziyskiy Soyuz Uchyonykh – Eurasian Union of Scientists, 8(77), 19–22.

Ibragimov, L. Kh. (2000). Intensifikatsiya dobychi gaza i kondensata [Intensification of gas and condensate production]. Nauka.

Kharitonov, A. N. (2021). Problemy ekspluatatsii gazovykh skvazhin zrelykh mestorozhdeniy Zapadnoy Sibiri i puti ikh resheniya [Problems of operating mature gas fields in Western Siberia and solutions]. Neftyanaya Provintsiya – Oil Province, 4(28), Special Issue Part 1, 155–185.

Khujamurodov, S. O. (2023). Complications in the operation of gas and gas condensate wells. In Proceedings of the International Conference of Academic Sciences, February 7, 42–48. https://doi. org/10.5281/zenodo.7614100

Mirzadzhanzade, A. Kh., Kuznetsov, O. L., Basniyev, K. S., & Aliyev, Z. S. (n.d.). Osnovy tekhnologii dobychi gaza [Fundamentals of gas production technology]. Nedra.

Mulyavin, S. F., & Oblekov, G. I. (2015). Proyektirovaniye razrabotki gazovykh i gazokondensatnykh mestorozhdeniy [Designing the development of gas and gas condensate fields]. Tyumen: TyumGNGU.

Oripova, S. A. (2024). Selecting lift column drop depth and diameter to provide liquid extraction conditions. Innovatsion Texnologiyalar – Innovative Technologies, 55(03), 7–13. https://ojs.qmii.uz/ index.php/it/article/view/903

Oripova, S., Adizov, B., & Akramov, B. (2023). Analysis of the results of gas hydrodynamic studies of wells at Alan gas condensate fields. Universum: Tekhnicheskiye nauki – Universum: Technical Sciences, 4–8(109), 38–40. https://cyberleninka.ru/article/n/anal

Prakhova, M. Yu., Krasnov, A. N., & Khoroshavina, Ye. A. (2016). Sposob diagnostirovaniya obvodnennosti gazovykh skvazhin [Method for diagnosing water influx in gas wells]. SOCAR Proceedings, (3), 19–26.

Sigankov, M. S. (2018). Ekspluatatsiya obvodnyayushchikhsya gazovykh skvazhin na mestorozhdenii [Operation of watering gas wells in a field]. Mezhdunarodnyy Studencheskiy Nauchnyy Vestnik – International Student Scientific Bulletin, (2), 111–118.

Ten, V. V. (2020). Prichiny obvodneniya gazovykh skvazhin i ikh metody ustraneniya [Causes of water breakthrough in gas wells and methods of elimination]. In Proceedings of the II International Scientific Conference (pp. 67–69).

Vasilyev, V. G., Ermakov, V. I., Zhabrev, I. P., Lvov, M. S., Mironchev, Yu. P., Orel, V. E., Staroselsky, V. I., & Stupakov, V. P. (1983). Gazovye i gazokondensatnye mestorozhdeniya [Gas and gas condensate fields] (2nd ed., rev. & enl., Ed. by Zhabrev, I. P.). Nedra.