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Neftyanaya Provintsiya 
No.4(28),2021, Part 1, Special issue
 

Optimizing field development and construction strategy based on integrated simulation

E.V. Raudanen, D.A. Konev, V.P. Pavlov, R.R. Shakirov, R.M. Yusupov

DOI: https://doi.org/10.25689/NP.2021.4.237-245

PP.237-245

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Abstract

The paper discusses the experience of integrated simulation application as a tool for a comprehensive analysis of field development scenarios with regard to interference of integrated model components. The work is aimed at improving the economic efficiency of field development due to optimization of surface infrastructure based on integrated simulation results. Application of the proposed approach at the initial planning stages enables the surface infrastructure to be improved and optimized considering its impact on production data, as well as taking jusitified engineering solutions, thus increasing accuracy of the project economic benefit estimation. Based on the integrated model calculations, the authors provide recommedations on pipeline size optimization and additional loop laying. Planned booster pump stations have been recommended to be commissioned at a later period. All the recommendations have been taken into consideration while preparing design documentation for field facilities construction.

Key words:

gas field, integrated simulation, field facilities construction

References

  1. Buchinskiy S., Kovalenko A., Permyakov A., Khakimov A., Savchuk D.. Conceptual Approach for Gas Field Clusters Development in Terms of Synergy Effect. SPE Russian Petroleum Technology Conference, 2018. Available at: doi.:10.2118/191642-18RPTC-MS (in English)

  2. Shakirov R.R., Permyakov A.V., Raudanen E.V., Ponomareva D.V. Optimizaciya gazovogo promysla mnogoplastovogo mestorozhdeniya s uchetom vzaimovliyaniya objektov razrabotki [Optimization of gas field with regard to interference of production targets]. Book of Reports “Chernomorskie Neftegazovye Konferencii” [“Black Sea Petroleum Conferences”]. 2020, pp.69-74 (in Russian)

  3. Gazprom Process Engineering Standards 1.8-001-2004 Normy tekhnologicheskogo proektirovaniya objektov gazodobyvayushchih predpriyatij i stancij podzemnogo hraneniya gaza [Engineering design code for gas production facilities and underground gas storage facilities].  (in Russian)

Authors

E.V. Raudanen, Tyumen Petroleum Research Center

79/1, Osipenko st., Tyumen, 625002, Russian Federation

E-mail: evraudanen@tnnc.rosneft.ru

 

D.A. Konev, Tyumen Petroleum Research Center

79/1, Osipenko st., Tyumen, 625002, Russian Federation

E-mail: dakonev@tnnc.rosneft.ru

 

V.P. Pavlov, Tyumen Petroleum Research Center

79/1, Osipenko st., Tyumen, 625002, Russian Federation

E-mail: vppavlov2@tnnc.rosneft.ru

 

R.R. Shakirov, Kynsko-Chaselsky Neftegaz LLC

14, 50 years of October st., Tyumen, 625048, Russian Federation

E-mail: ShakirovRR@kchn.ru

 

R.M. Yusupov, Kynsko-Chaselsky Neftegaz LLC

14, 50 years of October st., Tyumen, 625048, Russian Federation

E-mail: YusupovRM@kchn.ru

For citation:

E.V. Raudanen, D.A. Konev, V.P. Pavlov, R.R. Shakirov, R.M. Yusupov Optimizacija strategii razrabotki i obustrojstva gruppy mestorozhdenij na osnove integrirovannogo modelirovanija [Optimizing field development and construction strategy based on integrated simulation]. Neftyanaya Provintsiya, No. 4(28), Part 1, Special issue, 2021. pp. 237-245. DOI https://doi.org/10.25689/NP.2021.4.237-245 (in Russian)

 
 
 

   © E.V. Raudanen, D.A. Konev, V.P. Pavlov, R.R. Shakirov, R.M. Yusupov, 2021
       This is an open access article under the Creative Commons Attribution 4.0 License (https://creativecommons.org/licenses/by/4.0/)