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Neftyanaya Provintsiya 
No.2(30),2022

Hydraulic fracturing. Special aspects and potential of process type assignment

A.N. Kravchenko, V.V. Vasilev, O.V. Salimov, M.I. Samoilov

DOI: https://doi.org/10.25689/NP.2022.2.134-149

PP.134-149

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Abstract

Hydraulic fracturing is a complex, energy-intensive and expensive technological process. Therefore, to ensure its technological and economic efficiency, it is necessary to conduct a thorough and comprehensive study of the processing object and draw up a project. At the same time, hydraulic fracturing design is given paramount importance in the complex of preparatory work [1]. 

Today, hydraulic fracturing is a key method for intensifying oil production and enhancing oil recovery, both in terms of the amount of application and the contribution to the total volume of additional oil produced. The application of the technology makes it possible to involve previously undrained reserves in the development, increase the rate of recovery, and increase the profitability of production. It is possible to design a field development using hydraulic fracturing with the arrangement of a sparser well pattern. In addition, hydraulic fracturing technology allows the development of fields with unconventional reservoirs, where oil or gas production without hydraulic fracturing is impossible or unprofitable

Key words:

standard design, type assignment, unification, geology, reservoir engineering, technology, hydraulic fracturin

References

  1. Salimov V.G., Nasybullin A.V., Salimov O.V. Prikladnye zadachi tekhnologii gidravlicheskogo razryva plastov [Applied tasks of hydraulic fracturing technology]. Monograph, Kazan: FAN Publ., 2018, 340 p. (in Russian)

  2. Obzor rynka propantov v Rossii: informatsionnyi otchet [Overview of proppant market in Russia, 6th edition: information report]. OOO IG Infomayn, Moscow, 2019. (in Russian)

  3. Astaf'ev V.N., Andreev A.G., Samoylov M.I. Integrirovannyy podkhod k proektirovaniyu MGRP [Integrated Approach to Multistage Fracturing Design]. SPE-203896-RU (in Russian)

Authors

A.N. Kravchenko, Deputy Chief Engineer - Head of Design Systems Development Administration, Tyumen Petroleum Research Center

42, Perekopskaya st., Tyumen, 625003, Russian Federation

E-mail: ankravchenko-tnk@tnnc.rosneft.ru

 

V.V. Vasilev, Ph.D., Chief Manager, Solutions Type Assignment Department, Tyumen Petroleum Research Center

42, Perekopskaya st., Tyumen, 625003, Russian Federation

E-mail: vvvasilev@tnnc.rosneft.ru

 

O.V. Salimov, Dr.Sc., Manager, Solutions Type Assignment Department, Tyumen Petroleum Research Center

42, Perekopskaya st., Tyumen, 625003, Russian Federation

E-mail: ovsalimov@tnnc.rosneft.ru

M.I. Samoilov, Head of Hydraulic Fracturing Department, Center for Expert Support and Technical Development (LLC «RN-TSEPITR»)

7b, Odesskaya st., Tyumen, 625023, Russian Federation

E-mail: misamoilov@ceptr.rosneft.ru

For citation:

A.N. Kravchenko, V.V. Vasilev, O.V. Salimov, M.I. Samoilov Gidravlicheskij razryv plasta. Osobennosti i vozmozhnosti tipizacii processov [Hydraulic fracturing. Special aspects and potential of process type assignment]. Neftyanaya Provintsiya, No. 2(30), 2022. pp. 134-149. DOI https://doi.org/10.25689/NP.2022.2.134-149. EDN LMZVEW (in Russian)

 
 
 

   © A.N. Kravchenko, V.V. Vasilev, O.V. Salimov, M.I. Samoilov, 2022
       This is an open access article under the Creative Commons Attribution 4.0 License (https://creativecommons.org/licenses/by/4.0/)