| October 2015  |
Аннотированный перечень статей на русском языке |
| Geology and geologo-prospecting works |
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R.S. Khisamov (Tatneft PAO, RF, Almetyevsk) Geodynamic testing site for deformation monitoring of oil production area in Republic of Tatarstan DOI: Key words: geodynamic testing site, deformation processes, geodynamic monitoring, level network, seismic monitoring, earthquakes, crystalline basement. Development of the geodynamic monitoring system in the south-eastern part of Tatarstan began in the 80s of the last century, when running of seismological observations was started. The complex of leveling and satellite systems’ observations was organized in the south-eastern part of the Republic of Tatarstan. Each system solves its own part of the problem to identify deformation processes. The projected regional leveling network constitutes 23 closed polygons with the total length of leads amounting to 1600 km.References
1. R.S. Khisamov, N.S. Gatiyatullin, Yu.O. Kuz'min et al., Sovremennaya geodinamika i seysmichnost' yugo-vostoka Tatarstana (Modern geodynamics
and seismicity of the south-eastern part of Tatarstan), Kazan': FEN Publ.,
2012, 240 p.
2. Maksimov V.M., Tupysov M.K., Kul'pin L.G., Pronyushkina S.M., Natural and technology hazards during the hydrocarbon field developing of the Arctic
shelf and the underwater gas transportation ogri (In Russ.), Burenie i neft',
2015, no. 1, pp. 24-29.
3. Tektonicheskoe i neftegeologicheskoe rayonirovanie territorii Tatarstana
(Tectonic and oil geological zoning in Tatarstan): edited by Khisamov R.S.,
Kazan': FEN Publ., 2006, 328 p.
4. Khisamov R.S., Gatiyatullin N.S., Makarevich V.N. et al., Naftidogenez i problemy neftegazonosnosti fundamenta (Naftidogenesis and problems of foundation oil and gas potential), St. Peterburg, Publ. of VNIGRI, 2008, 306 p.
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A.D. Korobov, L.A. Korobova (National Research Saratov State University, RF, Saratov), V.P. Morozov (Kazan (Volga Region) Federal University, RF, Kazan) The role of petrogenic water in the hydrothermal process and oil migration in the structures of tectonic activation in Western Siberia DOI: Key words: tectonic-hydrothermal activation, petrogenic water, oil evacuation, illitization of smectite, continental rifting.
It was found that at the convective heat and mass transfer in the region of Krasnoleninskiy arch (Western Siberia) pulsed lateral pressure mode contributed to an avalanche release of interlayer water from the Upper Jurassic- Lower Cretaceous smectites (montmorillonites) in the free state at their hydromication. Resurgent (petrogenic) water composed the basis of the forming hydrothermal fluids responsible for the processes of ultra-acidic leaching, metasomatism, generation and migration of hydrocarbons. Express micro-oil evacuation from the source bed, which prevents its oxidation with subsequent formation of oil deposits, primarily associated with periods of tectonic and hydrothermal activation of sedimentary basins, regardless of whether they are rifting or are not complicated by rifting.
References
1. Abdullin R.A., The nature of the high permeability of reservoir rocks of
Sherkalinskiy horizon of Krasnoleninsk region of Western Siberia (In Russ.), Doklady
AN SSSR, 1991, V. 316, no. 2, pp. 422-424.
2. Lukin A.E., Garipov O.M., Lithogenesis and oil Jurassic clastic sediments of the midlatitude Ob (In Russ.), Litologiya i poleznye iskopaemye = Lithology and Mineral Resources, 1994, no. 5, pp. 65-85.
3. Dyunin V.I., Gidrogeodinamika glubokikh gorizontov neftegazonosnykh
basseynov (Hydrogeodynamics of deep horizons of oil and gas basins),
Moscow: Nauchnyy mir Publ., 2000, 472 p.
4. Korobov A.D., Korobova L.A., Pulsating stress as reflection of tectonic hydrothermal
activation and its role in generation of productive collectors
cover (West Siberia is taken as an example), (In Russ.), Geologiya, geofizika i
razrabotka neftyanykh i gazovykh mestorozhdeniy, 2011, no. 6, pp. 4-12.
5. Kholodov V.N., Geokhimiya osadochnogo protsessa (Geochemistry of
sedimentary process), Proceedings of Geological Institute RAS, 2006,
V. 574, 608 p.
6. Lebedev B.A., Aristova G.B., Bro E.G. et al., Vliyanie epigeneticheskikh protsessov na parametry kollektorov i pokryshek v mezozoyskikh otlozheniyakh Zapadno-Sibirskoy nizmennosti (Impact of epigenetic processes at reservoir and hoods parameters in the Mesozoic deposits of the West Siberian Plain), Proceedings of VNIGRI, 1976, V. 361, 107 p.
7. Brilling I.A., The effect of temperature and pressure on the filtration properties of clays (In Russ.), Cvyazannaya voda v dispersnykh sistemakh, 1977, V. 4, pp. 130-135.
8. Bazhenova O.K., Burlin Yu.K., Sokolov B.A., Khain V.E., Geologiya i
geokhimiya nefti i gaza(Geology and geochemistry of oil and gas), Moscow:
Publ. of MSU, 2000, 384 p.
9. Kazanskiy Yu.P., Kazarbin V.V., Solotchina E.P. et al., Lithology of Talin oil field collectors (Western Siberia) (In Russ.), Geologiya i geofizika = Russian Geology and Geophysics, 1993, V. 34, no. 5, pp. 22-31.
10. Morozov V.P., Sedimentogenez i postsedimentatsionnye izmeneniya paleozoyskikh karbonatnykh otlozheniy vostoka Vostochno-Evropeyskoy platformy (Sedimentation and postsedimentary changes in the Paleozoic carbonate rocks of the East European platform): thesis of doctor of geological
and mineralogical science, Kazan', 2009.
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N.M. Khasanova, N.M. Nizamutdinov, L.M. Sitdikova, V.P. Morozov, I.N. Plotnikova, N.V. Pronin (Kazan (Volga-River) Federal University, RF, Kazan), R.A. Khasanov (Central Research Institute for Geology of Industrial Minerals, RF, Kazan) Mineralogical and geochemical characteristics of oil shale Domaniс type on the spectra of electron paramagnetic resonance DOI: Login or register before ordering |
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A.V. Postnikov, O.V. Postnikova, K.Yu. Olenova, O.V. Sivalneva, I.I. Hasanov, N.A. Osintseva, M.R. Ganaeva (Gubkin Russian State University of Oil and Gas, RF, Moscow) New methodological aspects of lithological research of rocks Bazhenov formation DOI: Login or register before ordering |
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A.L. Vasiliev, E.B. Pichkur, A.A. Mikhutkin (National Research Centre Kurchatov Institute, RF, Moscow), M.Ju. Spasennikh, N.N. Bogdanovich (Skolkovo Institute of Science and Technology, RF, Moscow), N.S. Balushkina, G.A.Kalmikov (Lomonosov Moscow State University, RF, Moscow) The study of pore space morphology in kerogen from Bazhenov formation DOI: Login or register before ordering |
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E.Yu. Popov, Yu.A. Popov, M.Yu. Spasennukh (Skolkovo Institute of Science and Technology, RF,Moscow), G.A. Kalmykov (Lomonocov Moscow State University, RF, Moscow), V.P. Stenin (LUKOIL-Engineering LLC, RF, Moscow) Thermal properties of rocks from Bazhen suite DOI: Login or register before ordering |
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D.M. Ezersky, A.Yu. Filimonov (Schlumberger Logelco Ink., RF, Moscow), S.A. Borisenko, S.Yu. Rudakovskaya (Arktik-Gers OOO, RF, Tver), N.N. Bogdanovich(Skolkovo Institute of Science and Technology, RF, Moscow), M.A. Ostapchuk (Gazprom Neft JSC, RF, Saint-Petersburg) Assessment of water content in rocks of the Bazhenov formation DOI: Login or register before ordering |
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S.S. Chugunov, A.V. Kazak, A.N. Cheremisin (Skolkovo Institute of Science and Technology, RF, Moscow) Integration of X-ray micro-computed tomography and focused-ion-beam scanning electron microscopy data for pore-scale characterization of Bazhenov formation, Western Siberia DOI: Login or register before ordering |
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V.Yu. Kerimov, R.N. Mustaev, S.S. Dmitrievsky (Gubkin Russian State University of Oil and Gas, RF, Moscow), N.Sh. Yandarbiev, E.V. Kozlova (Lomonosov Moscow State University, RF, Moscow) The shale hydrocarbons prospects in the low permeability Khadum formation of the Pre-Caucasus DOI: Login or register before ordering |
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T.R. Zakirov, A.A. Galeev, A.A. Konovalov, E.O. Statsenko (Kazan (Volga Region) Federal University, Kazan) Analysis of the ‘representative elementary volume’ sandstones reservoir properties using the method of X-ray computed tomography in Ashalchinskoye oil field DOI: Login or register before ordering |
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V.P. Ivanchenkov, A.I. Kochegurov, O.V. Orlov (National Research Tomsk Polytechnic University, RF, Tomsk) Methods of the phase-frequency analysis of seismic waves and their application in studying of the borehole environment DOI: Login or register before ordering |
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G.S. Khamidullina, E.R. Ziganshin, E.I. Minnibajeva, R.R. Khaliullin (Kazan (Volga Region) Federal University, RF, Kazan) Study of reservoir properties of carbonate rocks based analysis reservoir quality index DOI: Login or register before ordering |
| Working out and operation of oil deposits |
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S.V. Kostyuchenko (TNNC LLC, RF, Tyumen) Computing parallel reservoir simulation technology of giant oil and gas fields conjugate systems of sector models DOI: Login or register before ordering |
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O.Yu. Savelev, A.A. Borodkin, M.V. Naugolnov, D.V. Shuvaev (Gazpromneft NTC LLC, RF, Saint-Petersburg), I.F. Talipov, F.V. Grishko (Salym Petroleum Development N.V., RF, Moscow) Modernized approach to provide block and factor analysis of oil field development system DOI: Login or register before ordering |
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A.S. Nekrasov, D.V. Potekhin (Perm National Research Polytechnic University, RF, Perm), A.V. Shilov, A.V. Gabnasyrov, M.A. Prisyazhnyuk (PermNIPIneft Branch of LUKOIL-Engineering LLC in Perm, RF, Perm) Substantiation of water saturation variations by height of oil and gas reservoir for the purposes of its geological and hydro-dynamic modeling DOI: Login or register before ordering |
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V.F. Chekushin, A.I. Ganeev (Bashneft PJOSC, RF, Ufa), E.V. Lozin (BashNIPIneft LLC, RF, Ufa) Last stage development of giant oil field by horizontal well systems DOI: Login or register before ordering |
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Yu.A. Kashnikov, S.G. Ashikhmin, A.E. Kuchtinski, V.E. Vildeman, M.P. Tretyakov, P.S. Bazhukov (Perm National Research Polytechnic University, RF, Perm) Determination of fracture toughness of oil fields rocks DOI: Key words: hydraulic fracture, rocks, core, fracture toughness. The results of determination of fracture toughnesscoefficients for rocks of oilfields LUKOIL-Perm LLC are presented. The results of core testing can be used for hydraulic fracture design purposes. The necessity of standardized method for determining the characteristics of the fracture toughness of rocks was shown.References
1. Economides M., Oligney R., Valkó P., Unified fracture design, Bridging the gap between theory and practice, Orsa Press, Alvin, Texas, 2001.
2. Parton V.Z., Morozov E.M., Mekhanika uprugoplasticheskogo razrusheniya (Elastic-plastic fracture mechanics), Moscow: Nauka Publ., 1985, 504 p.
3. Baryakh A.A., Asanov V.A., Pan'kov I.L., Fiziko-mekhanicheskie svoystva
solyanykh porod Verkhnekamskogo kaliynogo mestorozhdeniya (Physical
and mechanical properties of salt rocks of Verkhnekamskoye potash field),
Perm': Publ. of PSTU, 2008, 199 p.
4. Brown W.F., Srawley J.E. et al., Plane strain crack toughness testing of high strength metallic materials for testing and materials STP 410, American Society Philadelphia, 1966.
5. Baklashov I.V., Deformirovanie i razrushenie porodnykh massivov (Deformation and fracture of rock masses), Moscow: Nedra Publ., 1988, 271 p.
6. Vil'deman V.E., Tret'yakov M.P., Tret'yakova T.V. et al., Eksperimental'nye issledovaniya
svoystv materialov pri slozhnykh termomekhanicheskikh
vozdeystviyakh (Experimental studies of the properties of materials under
complex thermomechanical effects): edited by Vil'deman V.E., Moscow: FIZMATLIT Publ., 2012, 212 p.
7. Vil'deman V.E. et al., Mekhanika materialov. Metody i sredstva eksperimental'nykh issledovaniy (Mechanics of materials. Methods and tools for experimental studies), Perm': Publ. of PSTU, 2011, 165 .
8. Spravochnik po koeffitsientam intensivnosti napryazheniy (Guide to the
stress intensity factor): edited by Murakami Yu., Moscow: Mir Publ., 1990.
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M.V. Chertenkov, A.A. Aleroev, I.B. Ivanishin (LUKOIL-Engineering LL, RF, Moscow), I.V. Yazynina, E.V. Shelyago (Gubkin Russian State University of Oil and Gas, RF, Moscow) Physical modeling of production stimulation in low permeability carbonate reservoirs DOI: Login or register before ordering |
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Y.V. Alekseev (Gaspromneft-Angara LLC, RF, Saint Petersburg) A.A. Erofeev, A.A. Pachezhertsev, A.S. Meretin, R.N. Nikitin (Moscow Institute of Physics and Technology, Moscow) Prospects for use of thermochemical recovery methods for development of the Bazhenov formation DOI: Login or register before ordering |
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P.A. Grishin, K.M. Kovalev, A.V. Fomkin (VNIIneft JSC, RF, Moscow) Prospects of the ion modified water application for the carbonate reservoirs flooding DOI: Login or register before ordering |
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A.V. Bondarenko, D.A. Kudryashova (PermNIPIneft Branch of LUKOIL-Engineering LLC in Perm, RF, Perm) The application of hydrodynamic modeling for predictive effectiveness assessment of polymer flooding technology on Moskudinskoye field DOI: Login or register before ordering |
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M.A. Kuznetsov, S.M. Ishkinov (Slavneft-Megionneftegas OJSC, RF, Megion), T.I. Kuznetsova (Samara State Technological University, RF, Samara,), R.N. Fakhretdinov, G.H. Yakimenko, O.A. Bobylev, R.F. Shaymardanov (MFC ChemServiceEngineering LLC, RF, Moscow) The constantly developed research and production programs of industrial adaptation of injectivity profile leveling technologies for low permeability reservoirs of Slavneft-Megionneftegas OJSC DOI: Key words: low-permeability reservoir, technology efficiency, rheology of gelling systems. High-performance technologies of reallocation filtration water flows in reservoir is reviewed and recommended to the Industrial implementation on extraction of low-permeability reservoirs in order to improve the conformance water flooding as through-thickness and horizontally. The efficiency of the planned well operations increased as a result of dynamic updating and adaptation of technologies which reflected in a constantly developed research and production programs of industrial implementation methods. Using the method of choice the leading sites is one of the important tools in realization the programs of injectivity profile leveling technologies. The priority of adapted technologies on high-temperature and low permeability reservoirs is for programs of the industrial implementation, which is directed to maintain and improve basic levels of oil production.References
1. Proskurin V.A., Vinokhodov M.A., Khisamutdinov N.I., Sagitov D.K., Some specific features of exploration and prospects for jurassic deposits development of Novo-Pokursky field (In Russ.), Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy, 2013, no. 6, pp. 41-44.
2. Patent no. 2541667 RF, Reservoir recovery increasing composition, Inventors: Fakhretdinov R.N., Yakimenko G.Kh., Selimov D.F.
3. Gimaletdinov R.A., Sidorenko V.V., Fakhretdinov R.N. et al., Criteria for effective application of conformance control technologies under the production climate of Gazprom Neft JSC (In Russ.), Neftyanoe khozyaystvo = Oil Industry, 2015, no. 5, pp. 78-83.
4. Fakhretdinov R.N., Yakimenko G.Kh., Effektivnost' ispol'zovaniya novykh fundamental'nykh resheniy problem pri razrabotke neftyanykh zalezhey s trudnoizvlekaemymi zapasami (Efficiency of the use the new fundamental solutions to the problems in the development of oil fields with hard to recover reserves), Proceedings of VNIIneft', 2012, V. 147, pp. 49-61.
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S.N. Mokhov, R.V. Karapetov (Research and Engineering Institute, Vietsovpetro JV, the Socialist Republic Vietnam, Vungtau) Improved acid compositions for the wells bottom hole treatment in the clastic intervals of White Tiger field DOI: Login or register before ordering |
| Technics and technology of oil recovery |
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V.V. Bondarenko, U.A. Sazonov, M.A. Mokhov (Gubkin Russian State University of Oil and Gas, RF, Moscow) Hybrid equipment developing for oil and gas offshore production and treatment DOI: Login or register before ordering |
| Designing of arrangement of deposits |
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G.G. Vasilyev («Gubkin Russian State University of Oil and Gas, RF, Moscow), A.A. Tarasenko, P.V. Chepur (Tyumen State Oil and Gas University, RF, Tyumen), Guan Youhai (China University of Petroleum, China, Qingdao) Seismic analysis of vertical steel tanks RVSPK-50000 using a linear-spectral method DOI: Login or register before ordering |
| The oil-field equipment |
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E.V. Belyaeva, N.A. Loginova, E.E. Lapin, S.I. Pogorelov, A.V. Rizhenkov (National Research University Moscow Power Engineering Institute, RF, Moscow) Influence surface treatment of the microspheres by silane on mechanical and thermal properties of thermal insulation materials based on silicone syntactic foam DOI: Login or register before ordering |
| Power supply |
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A.G. Parygin, A.V. Volkov, A.V. Naumov, A.A. Druzinin, A.A. Vihlantzev (Moscow Power Engineering Institute, RF, Moscow) About the opportunities the application of the low head micro hydraulic power plants for the autonomous power supply of the technological equipment of the oil pipelines DOI: Login or register before ordering |
| Ecological and industrial safety |
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A.Yu. Solodovnikov, A.A. Khattu (Tyumen Branch of SurgutNIPIneft, RF, Tyumen) Ecological state of the components of the nature on the territory of Kazym–Vatlor group of fields DOI: Login or register before ordering |
