Neftyanaya Provintsiya
electronic peer-reviewed scholarly publication
Neftyanaya Provintsiya No.4(44),2025
Date of publication: 30 Dec. 2025
Amount of data: 16,6 МB
Date of publication: 30 Dec. 2025
Amount of data: 16,6 МB
-
Rationale for supplementary exploration of a deep horizon in the Russian Far East (PP.1-14)
V.А. Vanin, Т.М. Malysheva, I.V. Panchenko, М.U. Plaksina
DOI: https://doi.org/10.25689/NP.2025.4.1-14 - Genetic void types and analysis of reservoir potential of carbonate rocks of Timan-Pechora province (PP.15-31)
-
Relationship of the Jurassic terrigenous formation in the northwestern part of the Chardzhou stage with the pre-Jurassic rock complex(Republic of Uzbekistan)(PP.32-65)
G.S. Abdullaev, R.T. Zakirov, G.B. Evseeva, L.R. Kudasheva
DOI: https://doi.org/10.25689/NP.2025.4.32-65 -
Structures, material composition and metal content of oil shales of the Paleogene deposits of the Lower Syrdarya Depression (PP.66-82)
T.Kh. Shoimurotov, A.Z. Zhumagaziev, S.K. Kurbaniyazov, M.T. Khannanov
DOI: https://doi.org/10.25689/NP.2025.4.66-82 -
Rationale for searching for natural hydrogen deposits within Uzbekistan (PP.83-100)
T.Kh. Shoimurotov, O.A. Karshiev, M.T. Khannanov, S.S. Yusupkhodjaev
DOI:https://doi.org/10.25689/NP.2025.4.83-100 - Study of carbonate reservoirs of the Volga-Ural oil and gas ba-sin central regions (PP.101-113)
- Key aspects of deltaic sediments evolution and structure to be considered during geological modeling (PP.114-121)
- The effect of changes in the petrophysical properties of rocks on the effectiveness of geological exploration and well development(PP.122-141)
- Experience in developing carbonate reservoirs in Eastern Siberia (PP.142-161)
-
Features of the development of carbonate deposits of the Arlanskoye field with usage of horizontal wells in pressure maintenance system (PP.162-183)
G.S. Erokhin A.A. Babkina, A.M. Vagizov, E.R. Nurlygayanova, S.R. Nurov, A.T. Gareev, T.P. Azarova, R.F. Yakupov, A.T. Khisamutdinov
DOI:https://doi.org/10.25689/NP.2025.4.162-183 - Using carbon dioxide for enhanced oil recovery: current trends in Russia and international practices (PP.184-201)
-
Prospects for the application of combined guar-borate binary thermochemical compositions for hydraulic fracturing in low-temperature formations (PP.202-220)
I.I. Mannanov, G.R. Ganieva, O.V. Anikin, A.R. Tazeev, I.F. Minhanov
DOI:https://doi.org/10.25689/NP.2025.4.202-220 -
Improving the efficiency of gas field development by redistributing well production using machine learning (PP.221-234)
A.Yu. Yushkov, V.A. Ogai, R.N. Khakimov, N.D. Bulychev, Yu.G. Fedoreev
DOI:https://doi.org/10.25689/NP.2025.4.221-234 -
Biogases produced by in situ microbial activity show promise for enhanced oil recovery (PP.235-250)
L.R. Shaigallyamova, G.G. Kurbanova, A.A. Garipova, I.G. Fattakhov
DOI:https://doi.org/10.25689/NP.2025.4.235-250 - A comprehensive approach to well interference modeling using physically-based graph neural networks (PP.251-265)
-
Predicting of gas wells waterсut using a machine learning models (ML-models) (PP.266-283)
A.Yu. Yushkov, N.P. Lychagin, R.Yu. Shumeiko, N.M. Ogurechnikov, V.S. Shumalkin
DOI:https://doi.org/10.25689/NP.2025.4.266-283 -
Method for assessing the validity period of fluid models for multiphase flow metering (PP.284-302)
A.V. Novikov, E.A. Reitblat, S.Y. Zanochuev, D.Y. Balanovsky, E.N. Orekhov
DOI:https://doi.org/10.25689/NP.2025.4.284-302
© Non-governmental organization Volga-Kama Regional Division of the Russian Academy of Natural Science, 2015-2025 All the materials of the journal are available under the Creative Commons Attribution 4.0 License (https://creativecommons.org/licenses/by/4.0/)