Technology for the Elimination of Asphaltene-Resin-Paraffin Deposits in the Processing of Gas-Condensate Well Production
DOI:
https://doi.org/10.52171/herald.330Keywords:
gas condensate reservoir, asphaltene, resin, paraffin, light pyrolysis resin, naphthenic acidAbstract
Although paraffin deposition in gas-condensates has been partially studied, resin and asphaltene-related complications have received relatively little attention. Previously, it was commonly assumed that asphaltenes are completely absent in condensates. However, recent studies have demonstrated that oil accumulations present in some gas-condensate reservoirs can dissolve in the condensate and later precipitate in wells and production facilities. This article studies the nature of asphaltene-resin-paraffin deposition problems in gas-condensate fields and the development of a new technology for their removal using various combinations of light pyrolysis tar and naphthenic acid.
References
1.
Fan L., Harris B.W., Jamaluddin A., Kamath J., Mott R., Pope G.A., Shandrygin A., Whitson C.H. Understanding gas-condensate reservoirs. Oilfield Review 2005, 17, 14-27.
2.
Gas Condensate Reservoir Analysis, http://www.petrocenter.com, Accessed on October 2011.
3.
Iskenderov E.H., Bagirov A.N., Bagirov Sh.A. Razrabotka tekhnologii vosstanovleniya debita gazokondensatnyh skvazhin. Materialy Mezhdunarodnoj nauchno-tekhnicheskoj konferencii «Transport i hranenie uglevodorodnogo syrya», posvyashchennoj 60-letiyu TIU, 4-5 iyunya 2024 goda, Vypusk 27, v 2-h tomah, Tom 1, Tyumen, 153-156.
4.
Thou S., Ruthammer F., Potsch K. Detection of asphaltenes flocculation onset in gas condensate sys-tem. SPE 78321, 2002, 1-12.
5.
Mohammadi Amir H., Eslamimanesh Ali, Richon Dominique. Asphaltene precipitation in gas con-densate system. Advances in Chemistry Research. January 2012. p.52-57.
6.
İskəndərov E.X. Təbii qaz qarışıqlarının keyfiyyət göstəriciləri əsasında qaz kəmərində baş verən tex-noloji mürəkkəbləşmələrin diaqnostikası. Azərbaycan Mühəndislik Akademiyasının Xəbərləri, cild 16, 3/2024, s. 58-64. DOI: https://doi.org/10.52171/2076-0515_2024_16_03_58_64
7.
Sharifullin A.V., Bajbekova L.R., Sulejmanov A.T. Osobennosti sostava i stroenija neftjanyh otloz-henij // Tehnologii nefti i gaza, 2006, №6, с. 19-24.
8.
Bagirov A.N., Bagirov Sh.A Ochistka prizabojnoj zony neftjanyh skvazhin ot smol i asfaltenov. Sbornik statej XLV Mezhdunarodnoj nauchno-prakticheskoj konferencii «Advances in Science and Technology» 15 ijunya 2022 g. Nauchno-izdatelskij centr «Aktualnost. RF», Moskva, E-library, c.125-126.
9.
Isaev A.A., Malyhin V.I., Sharifullin A.A. Razrabotka sposoba bor'by s asfal'tosmoloparafinovymi otlozhenijami v skvazhinnom oborudovanii // «Neftepromyslovoe delo». 2019, №6, s.66-72.
10.
Iskandarov E.Kh., Baghirov A.N., Shikhiyeva L.M. Method for assessing the hydrate formation from a mixture of natural gas flows of varying degrees of moisture content. “Nafta-Gaz”, Krakow, Po-land, 2024, no. 1, pp. 39–44.
11.
Iskandarov E.X., Baghirov S.A. Analytıcal and wave-depressıon methods of elımınatıon of the onset of hydratıon ın subsea gas pıpelınes, News of the National Academy of Sciences of the Republic of Kazakhstan, Series of Geology and Technical Sciences, 2022, 2022(4), pp. 96–108. DOI: 10.32014/2022.2518-170X.203.
12.
Iskandarov E.K., Ismayilova F.B., Farzalizade Z.I. Oil Leaks Diagnosis in Pipelines Based on Ar-tificial Neuron Technologies Lecture Notes in Networks and Systems, 2024, 912 LNNS, p. 313–323.
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