Standard

Implementation of instrumentalised virtual multiphase flow metering technology in the wells of the vostochno-makarovskoye gas condensate field. / Zozulya, Andrey; Baranov; Miletski, Mikhail и др.

Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020. Society of Petroleum Engineers, 2020. (Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020).

Результаты исследований: Публикации в книгах, отчётах, сборниках, трудах конференцийстатья в сборнике материалов конференциинаучнаяРецензирование

Harvard

Zozulya, A, Baranov, Miletski, M, Rymarenko, K, Nukhaev, M, Figura, E, Rodin, S, Grishchenko, S, Aitkaliev, G, Zaytsev, A, Kabanov, V, Karamysheva, T, Usov, E & Agishev, R 2020, Implementation of instrumentalised virtual multiphase flow metering technology in the wells of the vostochno-makarovskoye gas condensate field. в Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020. Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020, Society of Petroleum Engineers, SPE Russian Petroleum Technology Conference 2020, RPTC 2020, Virtual, Online, 26.10.2020.

APA

Zozulya, A., Baranov, Miletski, M., Rymarenko, K., Nukhaev, M., Figura, E., Rodin, S., Grishchenko, S., Aitkaliev, G., Zaytsev, A., Kabanov, V., Karamysheva, T., Usov, E., & Agishev, R. (2020). Implementation of instrumentalised virtual multiphase flow metering technology in the wells of the vostochno-makarovskoye gas condensate field. в Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020 (Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020). Society of Petroleum Engineers.

Vancouver

Zozulya A, Baranov, Miletski M, Rymarenko K, Nukhaev M, Figura E и др. Implementation of instrumentalised virtual multiphase flow metering technology in the wells of the vostochno-makarovskoye gas condensate field. в Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020. Society of Petroleum Engineers. 2020. (Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020).

Author

Zozulya, Andrey ; Baranov ; Miletski, Mikhail и др. / Implementation of instrumentalised virtual multiphase flow metering technology in the wells of the vostochno-makarovskoye gas condensate field. Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020. Society of Petroleum Engineers, 2020. (Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020).

BibTeX

@inproceedings{836e085d7d28407a989fb38dadeeecd6,
title = "Implementation of instrumentalised virtual multiphase flow metering technology in the wells of the vostochno-makarovskoye gas condensate field",
abstract = "Liquid hydrocarbon quantity optimization is among key technological indicators in the gas condensate fields development. To achieve it one needs to select and maintain optimal well-operating conditions. In this case, multiphase flow measurements are prioritized as an important optimization tool. The article presents a proven record of implementing the technology of instrumentalised virtual multiphase flow metering in the wells of the Vostochno-Makarovskoye gas condensate field to increase the efficiency of liquid hydrocarbon production. Virtual flow metering technologies that use modeling methods and adapt models to actual well-operating parameters aiming at determining well production rates are becoming increasingly popular. At that, the quality of the data at the model input does not often guarantee a qualitative determination of multiphase flow parameters. This article presents a track record of building a virtual multiphase flow meter based on single-phase streamer flow meters mounted on gas wells. Venturi flow meters were used. A series of well tests were conducted in various modes. To configure the streamer model, additional tuning studies were conducted on the separator. While testing the wells, the results of constructing a streamer model were verified by nodal analysis. ",
author = "Andrey Zozulya and Baranov and Mikhail Miletski and Konstantin Rymarenko and Marat Nukhaev and Eugene Figura and Sergey Rodin and Sergey Grishchenko and Galymzhan Aitkaliev and Alexander Zaytsev and Vasily Kabanov and Tatiana Karamysheva and Eduard Usov and Ruslan Agishev",
note = "Publisher Copyright: Copyright 2020, Society of Petroleum Engineers. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.; SPE Russian Petroleum Technology Conference 2020, RPTC 2020 ; Conference date: 26-10-2020 Through 29-10-2020",
year = "2020",
language = "English",
series = "Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020",
publisher = "Society of Petroleum Engineers",
booktitle = "Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020",

}

RIS

TY - GEN

T1 - Implementation of instrumentalised virtual multiphase flow metering technology in the wells of the vostochno-makarovskoye gas condensate field

AU - Zozulya, Andrey

AU - Baranov,

AU - Miletski, Mikhail

AU - Rymarenko, Konstantin

AU - Nukhaev, Marat

AU - Figura, Eugene

AU - Rodin, Sergey

AU - Grishchenko, Sergey

AU - Aitkaliev, Galymzhan

AU - Zaytsev, Alexander

AU - Kabanov, Vasily

AU - Karamysheva, Tatiana

AU - Usov, Eduard

AU - Agishev, Ruslan

N1 - Publisher Copyright: Copyright 2020, Society of Petroleum Engineers. Copyright: Copyright 2020 Elsevier B.V., All rights reserved.

PY - 2020

Y1 - 2020

N2 - Liquid hydrocarbon quantity optimization is among key technological indicators in the gas condensate fields development. To achieve it one needs to select and maintain optimal well-operating conditions. In this case, multiphase flow measurements are prioritized as an important optimization tool. The article presents a proven record of implementing the technology of instrumentalised virtual multiphase flow metering in the wells of the Vostochno-Makarovskoye gas condensate field to increase the efficiency of liquid hydrocarbon production. Virtual flow metering technologies that use modeling methods and adapt models to actual well-operating parameters aiming at determining well production rates are becoming increasingly popular. At that, the quality of the data at the model input does not often guarantee a qualitative determination of multiphase flow parameters. This article presents a track record of building a virtual multiphase flow meter based on single-phase streamer flow meters mounted on gas wells. Venturi flow meters were used. A series of well tests were conducted in various modes. To configure the streamer model, additional tuning studies were conducted on the separator. While testing the wells, the results of constructing a streamer model were verified by nodal analysis.

AB - Liquid hydrocarbon quantity optimization is among key technological indicators in the gas condensate fields development. To achieve it one needs to select and maintain optimal well-operating conditions. In this case, multiphase flow measurements are prioritized as an important optimization tool. The article presents a proven record of implementing the technology of instrumentalised virtual multiphase flow metering in the wells of the Vostochno-Makarovskoye gas condensate field to increase the efficiency of liquid hydrocarbon production. Virtual flow metering technologies that use modeling methods and adapt models to actual well-operating parameters aiming at determining well production rates are becoming increasingly popular. At that, the quality of the data at the model input does not often guarantee a qualitative determination of multiphase flow parameters. This article presents a track record of building a virtual multiphase flow meter based on single-phase streamer flow meters mounted on gas wells. Venturi flow meters were used. A series of well tests were conducted in various modes. To configure the streamer model, additional tuning studies were conducted on the separator. While testing the wells, the results of constructing a streamer model were verified by nodal analysis.

UR - http://www.scopus.com/inward/record.url?scp=85096547084&partnerID=8YFLogxK

M3 - Conference contribution

AN - SCOPUS:85096547084

T3 - Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020

BT - Society of Petroleum Engineers - SPE Russian Petroleum Technology Conference 2020, RPTC 2020

PB - Society of Petroleum Engineers

T2 - SPE Russian Petroleum Technology Conference 2020, RPTC 2020

Y2 - 26 October 2020 through 29 October 2020

ER -

ID: 27085238