May 2016 |
Аннотированный перечень статей на русском языке |
The oil and gas industry |
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Economy, management, law |
А.V. Paliy, Е.Y. Belkina, I.V. Cherepanova, A.M. Kirillov (Zarubezhneft JSC, RF, Moscow) Industrial System of Zarubezhneft JSC as a tool for achieving maximum efficiency DOI: Key words: industrial program, efficiency improvement, cost reduction, operating culture, continuous improvements The article rises up the question of the efficiency and culture of production increasing by means of Production system creation and development. The experience of the largest world companies of industrial sector is presented. The opportunity of Production system creation at the enterprises of the oil and gas sector is shown. The main directions of development and construction tools of the production management system in Zarubezhneft JSC are given. The experience of pilot project’s implementation on the basis of Rusvietpetro JC is revealed.Login or register before ordering |
Geology and geologo-prospecting works |
V.Yu. Kerimov, M.A. Lobusev, A.V. Bondarev, G.Ya. Shilov (Gubkin Russian State University of Oil and Gas, RF, Moscow) Pressure conditions of formation of oil and gas complexes of the northern part of Western Siberia DOI: Login or register before ordering |
E.U. Ilina (Tyumen Branch of SurgutNIPIneft, RF, Surgut) Accounting of the influence of the carbonate-anhydrite impurities in terrigenous deposit on the hydrocarbon resources DOI: Login or register before ordering |
V.P. Ivanchenkov, A.I. Kochegurov, Xuan Hung Nguyen (National Research Tomsk Polytechnic University, RF, Tomsk) Prediction reservoir properties of rocks based on mutual phase spectrums of reflected seismic waves DOI: Login or register before ordering |
E.A. Yudkina, G.D. Fedorchenko, I.S. Afanasiev (Zarubezhneft JSC, RF, Moscow), A.S. Aleshenko (Zarubegneft-dobicha Hariaga LLC, RF, Moscow), E.V. Gula (Vniineft JSC, RF, Moscow) The modern approach to core data analysis application for studying of reserves structure of carbonate deposits of Zarubezhneft JSC DOI: Key words: Timan-Pechora Oil and Gas province, carbonate core description, litho-facial model, secondary porosity, fractured reservoir, formation images interpretation This article provides an overview of practical application of the whole core analyses results in the study of productive carbonate deposits D3fm(III+IV) of the North-Khosedayuskoye field. The litho-facies features of reservoir formation were studied. Detailed correlation of the cycles of relative change of sea level was shown that reservoir of the III formation member is more laterally continuous than overlying reservoir of IV formation member. An integrated approach to the fracture analysis allows obtaining the full understanding of the fractures reservoir distribution. The conclusion is based on the assumption that the microscale cracks, diagenetic macro cracks and cracks along the stylolite seams have no significant impact on the filtration processes in the formation. According to research of whole core there was identified the type of fractures which most likely able to influence on filtration processes in the formation. The results of research are based on the re-interpretation of Borehole Image Logging (BHI). Analysis of primary BHI interpretation in core intervals shows that the amount of conductive fractures are 13 time higher than amount of fractures in core. In summary, the results of whole core research are recommended to take into account for the geological and hydrodynamic modeling, further field development and new wells placement.References
1. Postnikov A.V., Osintseva N.A., Rapoport A.B. et al., Lithofacies modeling of Famennian carbonate rocks of the eastern side Khoreyverskaya oil-and-gas
bearing region (In Russ.), Neft', gaz i biznes, 2015, no. 9, pp. 30–37.
2. Nelson R.A., Geologic analysis of naturally fractured reservoirs, Houston, TX, Gulf Professional Publishing, 2nd ed., 2001, 320 p.
3. Proshlyakov B.K., Gal'yanova T.I., Pimenov Yu.G., Kollektorskie svoystva osadochnykh porod na bol'shikh glubinakh (The reservoir properties of sedimentary rocks at great depths), Moscow: Nedra Publ., 1987, 200 p.
4. Bagrintseva K.I., Usloviya formirovaniya i svoystva karbonatnykh kollektorov nefti i gaza (Formation conditions and properties of carbonate reservoirs of oil and gas), Moscow: Publ. of RSGU, 1999, 285 p.
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S.K. Turenko (Tyumen Industrial University, RF, Tyumen), E.A. Cherepanova (KogalymNIPIneft Branch of LUKOIL-Engineering LLC in Tyumen, RF, Tyumen) An adaptive approach to processing well logging data when building seismic models of oil and gas objects DOI: Login or register before ordering |
A.S. Shiryaeva, V.Z. Kotova, L.V. Novikova (Gazpromneft NTC LLC, RF, Saint-Petersburg) The new data of Kolganskaya deposit formation in Tsarichanskoye field DOI: Login or register before ordering |
Drilling of chinks |
A.I. Moguchev, A.G. Gubaidullin (Ufa State Petroleum Technological University, RF, Ufa) Effect of rock fracturing on elastoviscoplastic displacement of borehole walls DOI: Login or register before ordering |
V.G. Konesev, A.Yu. Khomutov (Gazpromneft NTC LLC, RF, Saint-Petersburg) Application of oil-based drilling muds in reservoir rocks of Gazpromneft-Noyabrskneftegas JSC fields DOI: Login or register before ordering |
A.A. Kunitskikh (Perm National Research Polytechnic University, RF, Perm) Study of cement slurry modifying agents DOI: Login or register before ordering |
Working out and operation of oil deposits |
A.Yu. Mosunov, T.A. Korovina, O.Z. Akhmetova (Tyumen Branch of SurgutNIPIneft, RF, Tyumen) Relevance and algorithm of the automated accounting of produced water chemical analysis in oil and gas field development DOI: Login or register before ordering |
A.A. Chusovitin, R.A. Gnilitskiy, D.S. Smirnov, Y.A. Plitkina, I.A. Likhoded (TNNC LLC, RF, Tyumen), D.V. Emelyanov, L.P. Melnikov (RN-Nyaganneftegas JSC, RF, Nyagan) Evolution of engineering solutions on the development of Tyumen suite oil reserves on an example of Krasnoleninskoye oilfield DOI: Login or register before ordering |
A.I. Fedorov, R.M. Nabiullin (Bashneft-Polus LLC, RF, Ufa), V.N. Fedorov, E.M. Salimgareeva, A.Sh. Akberova (BashNIPIneft LLC, RF, Ufa) Determination of reservoir filtration system model of R. Trebs field using dynamic well tests DOI: Key words: reservoir filtration system model, carbonates, double porosity, open hole, pressure build-up The paper presents features in determination of reservoir filtration system model of carbonate oil fields using dynamic well tests analysis. It is shown that pressure build-up is characterized by long-term wellbore storage covering over informative part of log-log plot. Authors suggest using drillstem test results to determine filtration model, for R.Trebs field it has determined as dual porosity model. Based on the drillstem test analysis storativity ratio and interporosity ratio for the Lower Devonian Ovinparma formation (D1op1) were calculated. Drillstem tests showed high informativity for reservoir filtration system model determination.References
1. Chernitskiy A.V., Geologicheskoe modelirovanie neftyanykh zalezhey massivnogo tipa v karbonatnykh treshchinovatykh kollektorakh (Geological
modeling of massive oil deposits in carbonate fractured reservoirs), Moscow:
Publ. of RMNTK Nefteotdacha, 2002, 254 p.
2. Shumatbaev K.D., Kuchurina O.E., Shishlova L.M., Integrated analysis of
void space in carbonates by the example of R. Trebs oil field (In Russ.), Neftyanoe khozyaystvo = Oil Industry, 2014, no. 6, pp. 91-93.
3. Nelson R.A., Geologic analysis of naturally fractured reservoirs, Houston:
GPP, 2001, 351 p.
4. Narr W., Schechter D.W., Thompson L.B., Naturally fractured reservoir characterization, SPE, Richardson, Texas, 2006, 112 p.
5. Bourdet D., Well test analysis: the use of advanced interpretation models,
Elsevier, 2002, 426 p.
6. Baykov V.A., Davletbaev A.Ya., Emchenko O.V., Zaynulin A.V., Fracturebased strategies for carbonate reservoir development, SPE 136248, 2010.
7. Pointe P.L., Wallmann P.C., Follin S., Continuum modeling of fractured rock masses: Is it useful, Eurock, 1996, pp. 343-350.
8. Horne R.N., Modern well test analysis, USA, Palo Alto: Petroway Inc., 1995, 271 p.
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Yu.A. Kashnikov, S.G. Ashikhmin, D.V. Shustov (Perm National Research Polytechnic University, RF, Perm), S.A. Kondratiev (PermNIPIneft Branch of LUKOIL-Engineering LLC in Perm, RF, Perm), Yu.W. Utochkin (Perm Engineering and Technical Centre Geofizika LLC, RF, Perm) In situ stress in the oil fields of Western Ural DOI: Login or register before ordering |
T.N. Aleksandrova, A.O. Romashev (National Mineral Resources University (Mining University), RF, Saint-Petersburg), A.V. Aleksandrov (Institute of Mining, Far Eastern Branch of RAS, RF, Khabarovsk) About modeling of rheological properties of heavy oil suspensions DOI: Login or register before ordering |
A.N. Ivanov, M.A. Fedoseev, E.N. Grishenko (Research and Engineering Institute, Vietsovpetro JV, the Socialist Republic Vietnam, Vung Tau), E.M. Koltsova (D. Mendeleev University of Chemical Technology of Russia, RF, Moscow) Mathematical modeling of processes in the near-wellbore zone during thermo-chemical gas impact DOI: Key words: thermo-chemical gas impact, mathematical modeling, dynamic compositional modeling, methods of oil production intensification Methods of oil production intensification are considered. On the example of low-rate well of Lower Miocene of White Tiger oilfield an analysis of the results of numerical modeling carried out for the selection of the optimum parameters for safe and efficient termo-chemical gas impact on bottomhole zone using solid fuel charge based on ammonium perchlorate, a rationale for the choice of optimal charge provided. The method of study of optimal parameters for thermo-chemical gas impact on bottomhole zone is shown; recommendations for real well are given.References
1. Grebennikov V.T., Tekhnologii vozdeystviya na produktivnyy plast generatorami davleniya i goryuche-okislitel'nymi zhidkostyami (Technologies of formation pressure generators, fuel and oxidizing liquids impacts on the producing), Moscow: Yunayted Nord Publ., 2008, 38 p.
2. Chazov G.A., Azamatov V.I., Yakimov S.V., Savich A.I., Termogazokhimicheskoe
vozdeystvie na malodebitnye i oslozhnennye skvazhiny (Thermal-gaschemical
treatment for marginal and difficult wells), Moscow: Nedra Publ.,
1986, 153 p.
3. Fedoseev M.A., Glebov M.B., Kol'tsova E.M., Gordeev L.S., Mathematical
modeling of the treatment of the near-wellbore area with a high-temperature
gas-vapor mixture in the combustion of composite solid propellants
under oil-well conditions (In Russ.), Teoreticheskie osnovy khimicheskoy
tekhnologii = Theoretical Foundations of Chemical Engineering, 2010, V. 44,
no. 4, pp. 417–424.
4. Sivukhin D.V., Termodinamika i molekulyarnaya fizika(Thermodynamics and molecular physics), Moscow: Nauka Publ., 1975, Part 2, 519 p.
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Transport and oil preparation |
M.R. Yakubov, D.N. Borisov (Arbuzov Institute of Organic and Physical Chemistry, Kazan Scientific Center of RAS, RF, Kazan), N.U. Maganov, R.D. Rempel, T.S. Ainullov (TATNEFT PJSC, RF, Almetyevsk), R.Z. Sakhabutdinov, S.N. Sudykin (TatNIPIneft, RF, Bugulma) Novel approaches and prospects for upgrading of extra-viscous oil via thermolysis under various conditions DOI: Login or register before ordering |
The oil-field equipment |
A.N. Drozdov, E.A. Malyavko (Gubkin Russian State University of Oil and Gas, RF, Moscow) Method of bench study of submersible pump units characteristics on the viscous fluids DOI: Login or register before ordering |
Rational use of oil gas |
E.S. Pyatkov, V.N. Surtaev (Rosneft Oil Company OJSC, RF, Moscow), D.I. Petukhov, E.A. Chernova, A.V. Lukashin, K.A. Solntsev, A.A. Eliseev (Lomonosov Moscow State University, RF, Moscow) Conditioning of associated petroleum gas using capillary condensation technique with asymmetric microporous anodic alumina membranes DOI: Login or register before ordering |
Pipeline transport of oil |
V.N. Sharifullin (Kazan State Power University, RF, Kazan), A.V. Sharifullin (Kazan National Research Technological University, RF, Kazan) Mixtures of mineral oil at their transportation the pipeline DOI: Key words: pipeline, hydrodynamics, longitudinal mixture, mathematical model In technology of pipeline transport there are operations of consecutive transport of two diverse streams of gases and liquids. One of the problems is undesirable mixture of streams on border of their contact. The purpose of the given work was development of the forecast of a zone of mixture of transported streams. For the description of longitudinal mixture of streams are used one-parametrical diffusions and cascade models of structure of streams. Complexity of calculation consists in necessity of the account of the real processes occurring at connection of one stream to another. The method of calculation of a zone of mutual mixture of streams and an interval of time during which this zone passes the set section of a pipe is developed. It is shown, that the account of real conditions of the starting period during transport of two consecutive streams leads to substantial growth of a zone of their mutual mixture. Results of work can be used at planning losses of a product, calculation of a time interval of passage of the polluted stream, and also at system engineering automatic control by transport of streams.References
1. Kafarov V.V., Osnovy massoperedachi (Fundamentals of mass transfer),
Moscow: Vysshaya shkola Publ., 1979, 439 p.
2. Kafarov V.V., Dorokhov I.N., Sistemnyy analiz protsessov khimicheskoy
tekhnologii (System analysis of chemical engineering processes), Moscow:
Nauka Publ., 1976, 500 p.
3. Kramers H., Westerterp K.R., Elements of chemical reactor. Design and operation, Academic Press, New York, 1963.
4. Pavlov K.S., Romankov P.G., Noskov A.A., Primery i zadachi po kursu protsessov
i apparatov khimicheskoy tekhnologii (Examples and exercises on the
course of processes and devices of chemical technology), Leningrad:
Khimiya Publ., 1976, 551 p.
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N.A. Loginova, Y.Y. Lapin, S.I. Pogorelov, A.V. Ryzhenkov (National Research University Moscow Power Engineering Institute, RF, Moscow) On screening influence on thermal resistance of thermal insulating constructions DOI: Login or register before ordering |
Ecological and industrial safety |
V.A. Dokichev, E.I. Koptyaeva (Institute of Organic Chemistry, Ufa Research Center of RAS, RF, Ufa), F.G. Ishmuratov, S.R. Alimbekova (Ufa State Aviation Technical University, RF, Ufa), Yu.V. Tomilov, N.E. Nifant'yev (N.D. Zelinsky Institute of Organic Chemistry, RAS, RF, Moscow) Carbohydrates – a new class of ‘green’ scale inhibitors DOI: Login or register before ordering |
V.D.Shantarin, Yu.D.Zemenkov, M.Yu.Zemenkova (Tyumen Industrial University, Rf, Tyumen), V.P.Pavlov (Giprotyumenneftegaz PAO, HMS Group, RF, Tyumen) Technology of oil sludge disposal DOI: Login or register before ordering |
E.A. Mazlova, N.V. Eremina (Gubkin Russian State University of Oil and Gas, RF, Moscow) Environmental regulations based on best available technologies in oil and gas industry DOI: Key words: sustainable development,best available technique, environmental standards, best available techniques (BAT) reference, oil, gas This article discusses the changes in the environmental regulation legislation, based on the principle of compliance with best available techniques (BAT). The conducted research relevance is caused by the necessity of oil and gas industry transition to the new normalization principles by 2020. The article also considers the legal basis for the transition to the new environmental regulations, based on technological standards, and BAT levels determination methodology for equipment and technologies inclusion in informational and technical reference books that are under development. In terms of isomerization unit of oil refinery, the BAT levels of this process were identified and the causes of the individual enterprises failure in achieving these levels were analyzed. The results obtained in the course of the research will be used in the development of BREF for oil and gas sectors.Login or register before ordering |
M.G. Chesnokovа (Omsk State Technical University, Omsk State Medical University of the Ministry of Health, RF, Omsk), V.V. Shalay, Yu.A. Kraus (Omsk State Technical University, RF, Omsk), A.Yu. Mironov (Gabrichevsky Moscow Research Institute of Epidemiology and Microbiology, Rospotrebnadzor, RF, Moscow) Biocorrosion activity in soils of pipeline route in Krasnodar Region DOI: Login or register before ordering |
M.I. Akhmedov (Gazprom Proektirovanie OOO, RF, Makhachkala) Technology for treating methanol-containing sewage from oil and gas fields DOI: Login or register before ordering |
From history of development of petroleum industry |
Bodrova E.V. (Federal state budgetary educational institution of higher professional education MIREA - Russian technological University), Kalinov V.V. (Federal State Budgetary Educational Institution of Higher Education «Gubkin Russian State University of Oil and Gas (National Research University)» ). In the engine war – we won! (about the work of Soviet oilmen during the Great Patriotic war) DOI: Login or register before ordering |