Articles Archive

№ 3/284, 2016

Title
Authors
Category
Estimating presence of hydrocarbons within Northern shelf of Vietnam
Geosciences

Authors: Viktor P. GAVRILOV graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1958. He is Doctor of Geological and Mineralogical Sciences, Professor, Head of the Department of Geology of Gubkin Russian State University (National Research University) of Oil and Gas. He is author of over 350 scientific works including, 12 monographs and 7 textbooks. E-mail: rgung@gubkin.ru
Elena A. LEONOVA graduated from Gubkin Russian State University of Oil and Gas in 1996. She is Candidate of Geological and Mineralogical Sciences, assistant professor of the Department of Geology of Gubkin Russian State University (National Research University) of Oil and Gas. She specializes in the field of geology and lithology of oil and gas fields. She is author of more than 30 scientific publications. E-mail: leonovae@gubkin.ru

Abstract: The article is devoted to estimation of oil and gas presence within the Northern shelf of Vietnam. The conducted research allowed substantiating new areas of further exploration in the region. Four categories of objects have been determined and described according to their perspectives and priority order for oil and gas prospecting

Index UDK: 551.35-553.98

Keywords: рerspectives of oil and gas presence, priority objects for oil and gas prospecting, shelf of Vietnam

Bibliography:
1. Gavrilov V.P., Leonova E.A. Tektonicheskoe stroenie i osobennosti neftegazonosnosti Shonghongskogo progiba (severnyj shel’f V’etnama). Geologija, geofizika i razrabotka neftjanyh i gazovyh mestorozhdenij, 2015, no. 10, p. 10-17.
2. Gavrilov V.P., Leonova E.A., Rybal’chenko V.V. Grjazevoj vulkanizm i neftegazonosnost’ Shonghongskogo progiba (severnyj shel’f V’etnama). Trudy Rossijskogo gosudarstvennogo universiteta nefti i gaza imeni I.M.Gubkina, 2011, no. 4 (265), p. 28-37.

Representation of limiting pressure gradient by reservoir filtration characteristics and fluid rheological properties
Geosciences

Authors: Nikolai M. DMITRIEV (b. 1948) is Doctor of Technical Sciences, professor of Gubkin Russian State University (National Research University) of Oil and Gas, Full Member of the Russian Academy of Natural Sciences. The sphere of his academic interests is anisotropic porous media mechanics. He has published over 240 works including 10 teaching aids.
E-mail: nmdrgu@gmail.com
Artur M. NURIEV (b. 1990) is a postgraduate student of the Department of Petroleum and Reservoir Hydromechanics of Gubkin Russian State University (National Research University) of Oil and Gas. The focus of his academic interests is anisotropic porous media mechanics. E-mail: amnuriev@gmail.com

Abstract: The formulas defining limiting pressure gradient values for simple capillary 3D-models with various structure of pore space are derived. It is shown that the multiplier numerical value in the limiting pressure gradient’s formula is not universal and depends not only on the shape of the channels but also on the pore space geometry. Therefore, the multiplier numerical value should be determined experimentally for each type of reservoir

Index UDK: 532.546

Keywords: filtration rule with limiting pressure gradient, capillary model, limiting pressure gradient, surface porosity, structure coefficient

Bibliography:
1. Barenblatt G.I., Entov V.M., Ryzhik V.M. Dvizhenie zhidkostey i gazov v prirodnykh plastakh [Fluid and gas flow in nature reservoirs]. Nedra publ., Moscow, 1984, 207 p.
2. Barenblatt G.I., Entov V.M., Ryzhik V.M. Teoriya nestatsionarnoy fil’tratsii zhidkosti i gaza [Theory of fluid and gas unsteady filtration]. Nedra publ., Moscow, 1972, 288 p.
3. Basniev K.S., Dmitriev N.M., Kanevskaya R.D., Maksimov V.M. Podzemnaya gidromekhanika [Subsurface Hydromechanics]. Moskva-Izhevsk: Institut of computer surveys, 2005, 496 p.
4. Basniev K.S., Dmitriev N.M., Rozenberg G.D. Neftegazovaya gidromekhanika [Oil and Gas Hydromechanics]. Moskva-Izhevsk: Institut of computer surveys, 2003, 408 p.
5. Bocharov V.A. Razrabotka neftyanykh plastov v usloviyakh proyavleniya nachal’nogo gradienta davleniya [Development of petroleum reservoirs with limiting pressure gradient].VNIIONG publ., Moscow, 2000, 252 p.
6. Devlikamov V.V. Structured oil flow analysis. Primenenie nen’yutonovskikh sistem v dobyche nefti [Using of non-Newtonian systems in oil production], Moscow VNIIOENG, 1970, no. 6, p. 99-109 (in Russian).
7. Devlikamov V.V., Khabibullin Z.A., Kabirov M.M. Anomal’nye nefti [Anomalous oil]. Nedra publ., Moscow, 1975, 167 p.
8. Sultanov V.I. About filtration of viscoplastic fluids in porous media. Izvestiya Akademii Nauk Azerbaydzhanskoy SS, 1960, no. 5, p. 125-130 (in Russian).
9. Leonov E.G., Isaev V.I. Gidroaeromekhanika v burenii [Hydro-aeromechanics in drilling]. Nedra publ., Moscow, 1987, 304 p.
10. Leonov E.G., Isaev V.I. Oslozhneniya i avarii pri burenii neftyanykh i gazovykh skvazhin. Ch. 1: Gidroaeromekhanika v burenii [Oil and gas well drilling problems and accidents]. Nedra-Biznestsentr publ., Moscow, 2006, 413 p.
11. Dmitriev N.M., Muradov A.A. To determination of coefficient of hydraulic resistance for fluid flows in modeling porous media. Trudy RGU nefti i gaza im. I.M. Gubkina [Proceedings of Gubkin Russian State University of Oil and Gas], 2010, no. 1, p. 45-57 (in Russian).
12. Dmitriev N.M., Nuriev A.M. Representation of permeability coefficients tensor for anisotropic fractured reservoirs. Trudy RGU nefti i gaza im. I.M. Gubkina [Proceedings of Gubkin Russian State University of Oil and Gas], 2015, no. 3, p. 31-38 (in Russian).

Authors: Nikolai A. EREMIN graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1978, and Lomonosov Moscow State University in 1986. He is Doctor of Technical Sciences, Head of the Analytical Center of Scientific and Technical Forecasting in Oil and Gas Industry of OGRI RAS. He is Full Professor of the Department of Oil Field Development of the Gubkin Russian State University (National Research University) of Oil and Gas. He is specialist in the area of the digitalization and intellectualization of hydrocarbon fields, the development of oil and gas fields and enhanced oil recovery. He is author of 153 scientific publications and 19 monographs. E-mail: ermn@mail.ru
Tatyana S. ZINOVKINA graduated from The Gubkin Russian State University of Oil and Gas in 2004. She is Candidate of Technical Sciences (2013), research fellow of OGRI RAS. She is specialist in the area of the development of oil and gas fields. She is author of 17 scientific publications. E-mail: zints@mail.ru
Nikolai A. SHABALIN is Candidate of Geological-Mineralogical Sciences (2013), senior research fellow of OGRI RAS. He is specialist in the area of the geology of oil and gas fields. He is author of more than 30 scientific publications.
E-mail: n1264012@yandex.ru
Akran Ali SALEM is a postgraduate student of the Department of Oil Field Development of the Gubkin Russian State University (National Research University) of Oil and Gas. The focus of his academic interests is the development of oil and gas fields. He is author 5 scientific publications. E-mail: rgung@gubkin.ru

Abstract: Libya ranks 3rd in oil reserves and 4th in gas reserves on the African continent. Most of Libya's proven reserves of oil are concentrated in the oil and gas region of Sirte and the northern part of the Gulf of Gabes. The oil and gas region of Sirte accounts for 90% of the country's production. Prospects for oil and gas potential in Libya are related to the research in the Mediterranean Sea. Libyan offshore territory belongs to the Tunisian-Sicilian (Gulf of Gabes) and Eastern Mediterranean (Gulf of Sirte) oil and gas basins. Promising areas for the discovery of oil and gas fields are the Bay of Sirte, Gulf of Gabes and the depression of Syrtis Major. Analysis of available information on the oil and gas potential and prospects of the Libyan shelf’s interior is presented. The article describes the results of the analysis of new seismic data, reflecting the existence of a compressive force within the Libyan shelf. The latter can be explained by the collision of the African and Western European plates that began with the end of the Cretaceous period. The comprehensive research indicates favorable prospects for the discovery of hydrocarbon fields within the Libyan shelf

Index UDK: 553.98

Keywords: petroleum potential, Libyan shelf’s interior, oil and gas fields, Tunisian-Sicilian oil and gas basin, Eastern Mediterranean oil and gas basin, Bay of Sirte, Gulf of Gabes, depression of Syrtis Major

Bibliography:
1. Vysotsky V.I., Vysotsky V.I., Olenin, V.B. Petroleum basins in foreign countries. M.: Nedra, 1990, 405 p. In Russian.
2. The geography of oil and gas production OAO Tatneft//tatneft.ru: server JSC Tatneft, 2013. URL: http://www.tatneft.ru/proizvodstvo/razvedka-i-dobicha/geografiya-neftegazodobichi/ru (accessed 28.06.2014). In Russian.
3. Kasaev E. O. Status and development trends of the oil and gas industry of Libya//iimes.ru: the server of the Institute of Middle East, 2009. URL: http://www.iimes.ru/?p=8853 (accessed: 28.06.2014). In Russian.
4. Management report OAO Gazprom for 2011//gazprom.ru: server JSC „Gazprom”, 2011. URL: http://www.gazprom.ru/investors/reports/2011 (accessed 28.06.2014). In Russian.
5. Gavrilov V.P. Oil and gas basins of the Mediterranean sea //Geology, Geophysics and development of oil and gas fields, 2015, no. 2, p. 42-47. In Russian.
6. Khisamov R.S., Giniatullin N.S., Gilyazov T.R. Some aspects of the tectonics of Libya// scientific-technical journal of the geo-resources, 2015, no. 1 (60), p. 78-80. In Russian.
7. Hassan S. Hassan. Libyan Oil Basins //SEPM STRATA Society for Sedimentary Geology, Friday, February 15, 2013.
8. Tarek Sabri Elakkari. Structural configuration of the Sirt basin//ITS 2005, March, p. 54.
9. Eremin N.A., Akran Ali Salem, Zinovkina T.S. Model of tectonic disturbances in the field of El Bouri//Geology, Geophysics and Development of Oil and Gas Fields, 2009, no. 12, p. 26-29. In Russian.
10. Eremin N.A., Akran Ali Salem, Zinovkina T.S. Oil and gas industry of Libya. Oil, gas and business, 2009, no. 10, p. 27-29. In Russian.
11. Eremin N.A., Bogatkina Y.G., Lyndin V.N. Especially economic assessment of gas-con- densate fields of Algeria to the terms of the PSA. Oil, gas and business, 2002, no. 5, p. 23-24. In Russian.
12. Eremin N.A., Zinovkina T.S., Shabalin N.A. Oil and gas potential of the Maltese shelf. Business Journal Neftegaz.Ru, 2016, no. 1-2, p. 12-15. In Russian.
13. Eremin N.A., Bogatkina Y.G., Lyndin V.N. Problems in the development of shelf fields and the methodology for their techno-economic assessment. Oil, gas and business, 2015, no. 11, p. 37-40. In Russian.
14. Eremin N.A., Dmitrievsky A.N. Innovation potential of the smart oil and gas technologies. Geology, Geophysics and Development of Oil and Gas Fields, 2016, no. 1, p. 4-9. In Russian.
15. Eremin N.A., Dmitrievsky A.N. Modern scientific-technical revolution (STR) and the shift of paradigm of hydrocarbon resources development. Problems of economics and management of oil and gas complex, 2015, no. 6, p. 10-16. In Russian.
16. Eremin N.A., Dmitrievsky A.N., Tikhomirov L.I. Present and future intellectual fields. Oil. Gas. Novation, 2015, no. 12, p. 44-49. In Russian.
17. Eremin Al.N., Eremin N.A. Current state and prospects of development of intelligent wells. Oil. Gas. Novation, 2015, no. 12, p. 50-53. In Russian.
18. Eremin N.A., Dmitrievsky A.N., Martynov G.V., Skopintsev S.G., Eremin Al.N. Downhole sensor systems. Oil. Gas. Novation, 2016, no. 2, p. 50-55. In Russian.

Generation of yydrocarbons at great depths of the earth’s grust
Geosciences

Authors: Vagif Yu. KERIMOV was born in 1949, graduated from Azizbekov Azebaijan Institute of Oil and Petrochemistry. Doctor of geological and mineralogical sciences, professor, head of the Department Theoretical fundamentals of prospecting and exploration of oil and gas of Gubkin Russian State University (National Research University) of Oil and Gas published over 150 works.E-mail: rgung@gubkin.ru
Rustam N. MUSTAEV, candidate of Geological and Mineralogical Sciences, assistant professor of the Department Theoretical fundamentals of prospecting and exploration of oil and gas of Gubkin Russian State University (National Research University) of Oil and Gas. Author of more than 40 scientific publications and 2 monographs. E-mail: r.mustaev@mail.ru
Alexander V. OSIPOV graduated from Gubkin Russian State University of Oil and Gas in 2010. Candidate of Geological and Mineralogical Sciences, assistant professor of the Department Theoretical fundamentals of prospecting and exploration of oil and gas of Gubkin Russian State University (National Research University) of Oil and Gas. He is author of more than 40 scientific publications. E-mail: osipov.a@gubkin.ru
Alexander V. BONDAREV, Candidate of Geological and Mineralogical Sciences, assistant professor of the Department Theoretical fundamentals of prospecting and exploration of oil and gas of Gubkin Russian State University (National Research University) of Oil and Gas. Author of more than 20 scientific publications. E-mail: jcomtess@yandex.ru

Abstract: Shown that at the great depths of the earth's crust, in the areas of high pressure and temperature, are kept all the conditions for generation of oil and gas. However, the generation of hydrocarbons in such environments is significantly different from the processes of oil and gas formation at small depths. Found that there is a complex system of mutual thermobaric factors and distribution of oil and gas potential at great depths: at the beginning of the generation and phase distribution of hydrocarbons in the section affected largely abnormally high pore pressure development and paleo temperatures that could differ materially from current depending on the age of deposits. Shown that different thicknesses catagenetic areas related to the kinetic rate of generation of oil and gas, which depends on the type of kerogen, the gradient of temperature, pressure, lithology and hydrogeological conditions of the enclosing rocks, sedimentation rate, and others

Index UDK: 550.8

Keywords: great depths, generation oil and gas, deep wells, kinetics, source rock, organic matter, hydrocarbons

Bibliography:
1. Ermolkin V.I., Kerimov V.Yu. Geologiya i geokhimiya nefti i gaza: Uchebnik dlya vuzov. M., OOO „Izdatel’skiy dom Nedra”, 2012, 460 p.
2. Guliev I.S. Kerimov V.Yu. Sverkhglubokie uglevodorodnye sistemy i tekhnologii ikh prognoza. Teoreticheskie osnovy i tekhnologii poiskov i razvedki nefti i gaza, 2012, no. 1, p. 24–32.
3.
Kerimov V.Yu., Serikova U.S., Mustaev R.N., Guliev I.S. Neftegazonosnost’ glubokozalega- yushchikh otlozheniy Yuzhno-Kaspiyskoy vpadiny. Neftyanoe khozyaystvo, 2014, no. 5, p. 50–54.
4.
Kerimov V.Yu., Bondarev A.V., Osipov A.V., Serov S.G. Evolyutsiya generatsionno-akumulyatsionnykh uglevodorodnykh sistem na territorii Baykitskoy anteklizy i Kureyskoy sineklizy (Vostochnaya Sibir’). Neftyanoe khozyaystvo, 2015, no. 5, p. 39–42.
5.
Kerimov V.Yu., Rachinskiy M.Z. Geoflyuidodinamika neftegazonosnosti podvizhnykh poyasov. M., OOO „Izdatel’skiy dom Nedra”, 2011, 599 p.
6. Kerimov V.Yu., Guliev I.S., Lavrenova E.A., Mustaev R.N., Osipov A.V., Serikova U.S. Prognozirovanie neftegazonosnosti v regionakh so slozhnym geologicheskim stroeniem. M., OOO „Izdatel’skiy dom Nedra”, 2014, 404 p.
7. Kerimov V.Yu., Rachinskiy M.Z., Karnaukhov S.M., Mustaev R.N. Geotemperaturnoe pole YuKb. Otechestvennaya geologiya, 2012, no. 3, p. 17–24.
8.
Guliev I.S., Kerimov V.Yu., Osipov A.V. Uglevodorodnyy potentsial bol’shikh glubin. Neft’, gaz i biznes, 2011, no. 5, p. 9–16.
9.
Rachinsky M.Z., Kerimov V.Yu. Fluid dynamics of oil and gas reservoirs. Scientific Editor Gorfunkel M.V. Scrivener Publishing, USA, 2015, 622 p.
10. Hantschel T., Kauerauf A.I. Fundamentals of Basin and Petroleum Systems Modeling, DOI 10/1007/978-3-540-72318-97. Springer-Verlag. Berlin-Heidelberg, 2009.
11. Tissot B.P., Welte D.H. Petroleum Formation and Occurrence. Springer-Verlag. Berlin, second edition, 1984.

Influence of siberian superplume magmatism on petroleum potential of region
Geosciences

Authors: Mihail A. LOBUSEV is PhD (tech.), Associate Professor of the Dept. of Production Geology, Gubkin Russian State University (National Research University) of Oil and Gas. E-mail: MLobusev@gmail.com
Alexander V. BONDAREV specializes in basin modeling. He is Associate Professor of the Dept. of Theory of Prospecting and Exploration for Oil and Gas, Gubkin Russian State University (National Research University) of Oil and Gas.
E-mail: jcomtess@yandex.ru
Sergey G. SEROV specializes in basin modeling. He is Teaching Fellow of the Dept. of Theory of Prospecting and Exploration for Oil and Gas, Gubkin Russian State University (National Research University) of Oil and Gas, post-graduate student.
E-mail: sgserov@mail.ru
Nikolay B. KUZNETSOV is Doctor of Sciences, leading researcher of the Dept. of Theory of Prospecting and Exploration for Oil and Gas, Gubkin Russian State University (National Research University) of Oil and Gas. E-mail: kouznikbor@mail.ru

Abstract: A new method of updating zones of oil and gas generation is presented. The case of the Lena-Tunguska petroleum province is chosen to illustrate the importance of taking into account the influence of magmatic processes for predicting oil and gas potential. Both the positive and negative influence of the Siberian superplume magmatism on the formation and evolution of petroleum systems is shown

Index UDK: 553.982.23.053

Keywords: Siberian superplume, traps, Triassic, basin temperature conditions, thermal effects, petroleum generation zones

Bibliography:
1. Al’mukhamedov A.I., Medvedev A.Ya., Zolotukhin V.V. Veshchestvennaya evolyutsiya permotriasovykh bazal’tov Sibirskoy platformy vo vremeni i prostranstve. Petrology, 2004, v. 12, no. 4, p. 339-353.
2. Bazhenova T.K. Dakhnova M.V., Zheglova T.P. Neftematerinskie formatsii, nefti i gazy dokembriya i nizhnego — srednego kembriya Sibirskoy platformy. M.: VNIGNI, 2014, 124 p.
3. Kerimov V.Y. Modelirovanie neftegazovykh geosistem i osadochnykh basseynov. Teoreticheskie osnovy i tekhnologii poiskov i razvedki nefti i gaza, 2012, no. 1, p. 41.
4. Kerimov V.Y. Prognoz neftegazonosnosti, poiski i razvedka mestorozhdeniy nefti i gaza v regionakh so slozhnym geologicheskim stroeniem s primeneniem tekhnologiy modelirovaniya uglevodorodnykh system. Neft’ gaz i biznes, 2015, no. 10, p. 58-63.
5. Kerimov V.Yu., Bondarev A.V., Osipov A.V., Serov S.G. Evolution of petroleum systems in the territory of Baikit anticlise and Kureiskaya syneclise (Eastern Siberia). Neftyanoe khozyaystvo [Oil Industry], 2015, no. 5, p. 39-42.
6. Kerimov V.Y., Gordadze G.N., Kuznetsov N.B., Giruts M.V., Serov S.G., Gayduk A.V. Studying hydrocarbons biomarkers from riphean, vendian and lower cambrian rocks of katanga saddle. Geomodel 2015 — 17th Scientific-Practical Conference on Oil and Gas Geological Exploration and Development. DOI: 10.3997/2214-4609.201414007, p. 594-598.
7. Kerimov V.Y., Kuznetsov N.B., Osipov A.V., Serov S.G. New directions for petroleum exploration on Siberian platform. 17th science and applied research conference on oil and gas geological exploration and development. GEOMODEL 2015. DOI: 10.3997/2214-4609.201414004, p. 579-583.
8. Kontorovich A.E., Belyaev S.Yu., Kontorovich A.A. i dr. Tektonicheskaya karta vend-nizhnepaleozoyskogo strukturnogo yarusa Leno-Tungusskoy provintsii Sibirskoy platform. Geologiya i geofizika, 2009, v. 50, no. 8, p. 851-862.
9. Kuz’min M.I., Al’mukhamedov A.I., Yarmolyuk V.V. i dr. Riftogennyy i vnutriplitnyy magmatizm, sootnoshenie s „goryachimi” i „kholodnymi” polyami mantii. Geologiya i geofizika, 2003, t. 44, no. 12, p. 1270-1279.
10. Mel’nikov N.V. Vend-kembriyskiy solenosnyy basseyn Sibirskoy platformy (Stratigrafiya, istoriya razvitiya). Novosibirsk: Izd-vo SO RAN, 2009, p. 146.
11. Pavlenkova N.I. Reologicheskie svoystva verkhney mantii severnoy evrazii i priroda regional’nykh granits po dannym sverkhdlinnykh seysmicheskikh profiley. Geologiya i geofizika, 2011, v. 52, no. 9, p. 1287-1301.
12. Surkov V.S., Trofimuk A.A., Zhero O.G. i dr. Triasovaya riftovaya sistema Zapadno-Sibirskoy plity, ee vliyanie na strukturu i neftegazonosnost’ platformennogo mezozoysko-kaynozoyskogo chekhla. Geologiya i geofizika, 1982, no. 8, 3 p.
13. Filiptsov Yu.A., Starosel’tsev V.S. Rifeyskie progiby — osnovnye istochniki nefti i gaza v zapadnoy chasti Sibirskoy platform. Geologiya nefti i gaza, 2009, no. 6, p. 40-56.
14. Kаmо S. L., Сzаmаnske G. K., Аmelin Yu. et al. Rарid eruрtiоn оf Siberiаn Flооd-vоlсаniс rосks аnd evidenсe fоr соinсidenсe with Рermiаn-Triаssiс bоundаry аnd mаss eхtinсtiоn аt 251 Mа. Eаrth аnd Рlаnetаry Sсienсe Letters, v. 214, 2003, p. 75-91.
15. Reichow M.K., Pringle M.S., Al’Mukhamedov A.I. et al. The timing of extent of the eruption of the Siberian Traps large igneous province: Implications for the end-Permian environmental crisis. Eаrth аnd Рlаnetаry Sсienсe Letters, 2009, v. 277, p. 9-20.

Tectonic nonuniformity and oil-and-gas content of the Turan Plate based on satellite images interpretation
Geosciences

Authors: Vadim V. MASLOV graduated from Gubkin Russian State University of Oil and Gas in 1995. He is Candidate of Geological and Mineralogical Sciences, Associate Professor of the Department of Geology of Gubkin Russian State University (National Research University) of Oil and Gas. His research interests are concerned with the petroleum potential of Upper Paleozoic complex deposits in the Ustyurt region, as well as oil and gas potential shelves of marginal seas. He is author of 15 publications and co-author of a monograph and a textbook. E-mail: maslov.v@gubkin.ru
Lydmila V. MILOSERDOVA graduated from Lomonosov Moscow State University in 1972. She is Candidate of Geological and Mineralogical Sciences, Associate Professor of the Department of Theory of Prospecting and Exploration for Oil and Gas of Gubkin Russian State University (National Research University) of Oil and Gas. Her research interests are connected with the study of satellite images and tectonics. She is author more than 40 scientific publications and 1 textbook.
E-mail: miloserdovalv@yandex.ru

Abstract: The thesis discusses new data on satellite image interpretation in relation to geological structure and oil and gas potential of the Turan Plate

Index UDK: 550.8:551.43

Keywords: Turan Plate, Ustyurt Region, tectonic structure, geological interpretation of satellite images, oil and gas potential

Bibliography:
1. Gavrilov V.P., Gulyaev N.B., Gibshman N.B., Karnaukhov S.M., Maslov V.V., Ogorodnikov V.V., Rybalchenko V.V. Geology and prospects of oil-and-gas content Upper Paleozoic deposits of the Ustyurt region. M.: Nedra Publ, 2014, 247 p.
2. Gavrilov P.V., Maslov V.V. Рetroleum potential of the upper Paleozoic complex of the Eastern Ustyurt (Uzbekistan). Collection of scientific works of Russian state University of oil and gas I.M. Gubkin, 2015, no. 4 (282), p. 15-28.
3. Boyarchuk K.A., Tumanov M.V., Miloserdova L.V. the Mapping of geological structures on satellite images of different spatial resolution. Earth Research from space, 2012, no. 6, p. 29.
4. Bakirov A.A., Knyazev B.C., Florensky P.V., Sharygin A.M., Shnip O.A. Foundation, the main faults of the Turan plate in connection with its petroleum potential. Section I. M.: Nedra, 1970, p. 5-157.

Мain stages of geodinamical evolution of caionozoic sedimentary mantle of the north-east part of sakhalin shelf
Geosciences

Authors: EGOR A. SIZIKOV is fellow lecturer of the Department of Theory of Exploration and Prospecting for Oil and Gas of Gubkin Russian State University (National Research Univer- sity) of Oil and Gas. He is author of 5 scientific publications. He specializes in the study of the Sea of Okhotsk region. E-mail: sizikovea@gmail.com

Abstract: The main stages of forming of Cenozoic sedimentary cover of Prisakhalin shelf are considered. Two-level architecture of the cover is shown, the mechanisms of forming of two types of the oil and gas structures in the region are described: structures of Myngin (sub-latitudal) and Kirinsk (sub-meridional) types

Index UDK: 551.242+551.242.11.052

Keywords: the Sea of Okhotsk, Prisakhalin shelf, geodinamic evolution, oil and gas structures

Bibliography:
1. Vasilenko N.F., Prytkov A.S., Kim Ch.U., Takakhashi Kh. Koseysmicheskie deformatsii zemnoy poverkhnosti na o. Sakhalin v rezul’tate Nevel’skogo zemletryaseniya 02.08.2007. Tikhookean-skaya geologiya, 2009, t. 28, no. 5, p. 16-21.
2. Voeykova O.A. Nesmeyanov S.A., Serebryakova M.I. Neotektonika i aktivnye razryvy Sakhalina. M.: Nauka, 2007, 186 p.
3. Golozubov V.V., Kasatkin S.A., Grannik V.M., Nechayuk A.E. Deformatsii pozdnemelovykh kaynozoyskikh kompleksov Zapadno-Sakhalinskogo terreyna. Geotektonika, 2012, no. 5, p. 22-43.
4. Gololobov Yu.N., Kharakhinov V.V. O proyavlenii gorizontal’nykh tektonicheskikh dvizheniy na Severnom Sakhaline. Geologiya i razrabotka neftyanykh mestorozhdeniy Sakhalina. M., 1973.
5. Dzhafarov I.S., Kerimov V.Yu., Shilov G.Ya. Shel’f, ego izuchenie i znachenie dlya poiskov i razvedki skopleniy nefti i gaza. Sankt-Peterburg: Nedra, 2005.
6. Ermolkin V.I., Kerimov V.Yu. Geologiya i geokhimiya nefti i gaza. M.: Nedra, 2012.
7. Kerimov V.Yu., Lavrenova E.A., Sinyavskaya O.S., Sizikov E.A. Otsenka uglevodorodnogo potentsiala generatsionno-akkumulyatsionnykh uglevodorodnykh sistem Okhotskogo moray. Trudy RGU nefti i gaza im.I.M.Gubkina, 2015, no. 3 (280), p. 18-29.
8. Kerimov V.Yu., Sizikov E.A., Sinyavskaya O.S., Makarova A.Yu. Usloviya formirovaniya i poiski zalezhey UV v turbiditovykh kollektorakh Okhotskogo moray. Neft’, gaz i biznes, 2015, no. 2, p. 32-37.
9. Kerimov V.Yu., Bondarev A.V., Sizikov E.A., Sinyavskaya O.S., Makarova A.Yu. Usloviya formirovaniya i evolyutsiya uglevodorodnykh sistem na prisakhalinskom shel’fe Okhotskogo morya. Zhurnal Neftyanoe khozyaystvo, 2015, no. 8.
10. Kerimov V.Yu., Sinyavskaya O.S., Sizikov E.A., Lavrenova E.A., Usloviya generatsii i akkumulyatsii uglevodorodov v osadochnykh basseynakh Okhotskogo morya (po rezul’tatam basseynovogo modelirovaniya. Sbornik nauchnykh trudov Mezhdunarodnoy nauchno-prakticheskoy konferentsii „Novye idei v geologii nefti i gaza — 2015”, 28-29.05.2015.
11. Kerimov V.Yu., Rachinskiy M.Z. Geoflyuidodinamika neftegazonosnosti podvizhnykh poyasov. M.: OOO „Izdatel’skiy dom Nedra”, 2011, 599 p.
12. Kerimov V.Yu., Shilov G.Ya, Polyakov E.E. Akhiyarov A.V. i dr. Sedimentologo — fatsial’noe modelirovanie pri poiskakh, razvedke i dobyche skopleniy uglevodorodov. RGU nefti i gaza imeni I.M. Gubkina. VNIIgeosistem, 2010, 288 p.
13. Kim Ch.U., Mikhaylov V.I., Sen R.S., Semenova E.P. Nevel’skoe zemletryasenie 02.08.2007: analiz instrumental’nykh dannykh. Tikhookeanskaya geologiya, 2009, t. 28, no. 5, p. 4-15.
14. Kuznetsov N.B. Dopozdnekaynozoyskaya tektonika fundamenta Kurilo-Kamchatskoy ostrovnoy dugi. Dissertatsiya na soiskanie uchenoy stepeni kandidata geologo-mineralogicheskikh nauk. Moskva, 1994, 307 p.
15. Kharakhinov V.V. Neftegazovaya geologiya Sakhalinskogo regiona. M.: Nauchnyy mir, 2010, 276 p.

Authors: Alexander N. KULIKOV graduated from Ufa State Petroleum Technological University in 1980. He is Ph.D., Head of Production Chemistry Laboratory, Scientific Educational Center of Gubkin Russian State University (National Research University) of Oil and Gas. Hi is author of over 50 scientific publications. E-mail: ANK-_1@mail.ru
Lyubov A. MAGADOVA graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1975. She is Ph.D., Professor of the Department of Oil and Gas Processing of Gubkin Russian State University (National Research University) of Oil and Gas. She is author of over 160 scientific publications. E-mail: magadova0108@himeko.ru
Kira A. POTESHKINA graduated from Gubkin Russian State University of Oil and Gas in 2012. She is leading engineer of the Production Chemistry Laboratory, Scietific Educational Center of Gubkin Russian State University (National Research University) of Oil and Gas. She is author of over 20 scientific publications. E-mail: poteshkina.kira@yandex.ru
Dmitriy Ju. ELISEEV graduated from Almetyevsk Petroleum Institute in 1998. He is Ph.D., Нead divisional manager of the Research and Education Center of the Department of Chemical Engineering for Oil and Gas Industry of Gubkin Russian State University (National Research University) of Oil and Gas. He is author 50 published scientific papers and three patents.
E-mail: eliseev.d@gubkin.ru
Mikhail A. SILIN graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1978. He is Doctor of Chemical Sciences, Vice-Rector of Iinnovations and Commercialization of Gubkin Russian State University (National Research University) of Oil and Gas, Head of the Department of Chemical Engineering for Oil and Gas Industry. He is an author of over 160 scientific publications. E-mail: silin.m@gubkin.ru

Abstract: The article presents ways to improve water inflow control technologies in production wells and repair and insulation works in injectors. These consist in cost reduction by eliminating the pre-lifting pump from the well. Such work on water shut control in producing wells is recommended to be carried out simultaneously with preparation for the current repair. An integrated technology including water shut off works, killing and acid stimulation of wells is offered. “IMR” is proposed as a plugging composition. The expediency of insulation works in injection wells to eliminate behind-casing flow using diverter technology is shown. It is recommended to temporarily isolate the productive layer by such compositions. The technology of temporary producing formation isolation with guar gel and other reagents is offered

Index UDK: 622.276.72

Keywords: low-waste water control technology, killing of a well, residual resistance factor, rain-technology, temporary plugging productive formation, mutual neutralization

Bibliography:
1. Kulikov A.N., Nigmatullina P.G. The question of optimizing the choice on the objects of water shut off works in water-oil deposits of Western Siberia. Interval, 2008. no. 6, р. 36-40.
2. Kulikov A.N., Dvorkin V.I. Hydrodynamic features of the development of water-oil deposits and its impact on the efficiency of technical measures. Electronic Journal „Investigated in Russia”, 2005, no. 84, р. 879-888.

Analytical and discrete methods of research of failure intensity in gas transport
Geosciences

Authors: Vladimir N. RUSEV graduated from Lomonosov Moscow State University specializing in probability theory and mathematical statistics in 1997. He is senior lecturer of the Department of Higher Mathematics of Gubkin Russian State University of Oil and Gas (National Research University). The focus of his academic interests is information theory, applied mathematical statistics and theory of reliability. He is author of 15 scientific publications including 3 teaching aids. E-mail: vnrusev@yandex.ru
Alexandr V. SKORIKOV graduated from Rostov State University in 1971. He is Candidate of Physical and Mathematical Sciences, associate professor of the Department of Higher Mathematics of Gubkin Russian State University (National Research University) of Oil and Gas. His scientific interests are fractional derivatives and integrals, operators of potential type and functional spaces, theory of reliability. He has published over 30 works including 5 teaching aids. E-mail: skorikov.a@gubkin.ru

Abstract: Reliability indicators of restorable systems and their components, depending on the statistical characteristics estimations based on real operational data, are studied. It is assumed that the objects entire life cycle is described by the law of WeibullGnedenko distribution. The research technique of reliability indicators of restorable systems and their components is presented. It takes into account the dependence of these indicators on time and is based both on analytical and discrete methods. The advantages of the considered discrete method include its universality, simplicity of algorithms and calculations. This work is focused on further realization of mathematical models and methods as unique informational and analytical software. The so-called moments problem relevant for the solution of reliability problems has been analyzed. Examples of processing of real statistical data on failures of technologically active elements in gas supply system are considered

Index UDK: 519.218.4:622.691.4

Keywords: reliability indicators, failure rate, failure intensity, renewal equation, distribution of Weibull-Gnedenko, finite element method, moments problem

Bibliography:
1. Grigoriev L., Kucheryavy V., Rusev V., Sedyh I. Formation of estimates of reliability indicators for active elements in gas transport systems on the basis of refusals statistics. Journal of Polish Safety and Reliability Association, Summer Safety and Reliability Seminars. Vol. 5, no. 1-2, 2014.
2. Rossiyskaya gazovaya entsiklopediya/Pod red. R. Vyakhireva. M.: Bol’shaya Rossiyskaya entsiklopediya, 2004 (slovarnaya stat’ya Nadezhnost’ sistem gazosnabzheniya” — M.G. Sukharev) (In Russian).
3. Polovko A.M., Gurov S.V. Osnovy teorii nadezhnosti. 2-e izd., pererab. i dop. SPb.: BKhV-Peterburg, 2006, 704 p. (In Russian).
4. Sukharev M.G. Modeli nadezhnosti markovskogo tipa s prilozheniyami k neftegazovomu delu. Uchebnoe posobie. M.: Izdatel’skiy tsentr RGU nefti i gaza imeni I.M. Gubkina, 2012, 131 p. (In Russian).
5. Rusev V.N., Sкоriкоv А.V. Аnаliz elеmеntоv sistеm gаzоsnаbzhеniya s pоmоshch’yu mеtоdа prоizvоdyashchih funкtsiy mоmеntоv. Trudy RGU nefti i gaza imеni I.М. Gubкinа [Proceeding of Gubkin Russian State University of Oil and Gaz], 2016, no. 1 (282), p. 78-88 (In Russian).
6. Bahvalov N.S., Zhidkov N.P., Kobelkov G.M. Chislennye metody. M.: Binom. Laboratoriya znaniy, 2003, 602 p. (In Russian).
7. Strang G., Fix G. An Analysys of the Finite Element Method. Prentice-Hall, INC. Englewood Cliffs, N.J. 1973. (Russ. ed.: Strang G., Fix G. Teoriya metoda konechnyh elementov. M.: Mir, 1977, 351 p.).
8. Strelyaev Y.M., Klimenko M.I. Primenenie metoda konechnyh elementov k resheniyu integral’nyh uravneniy Volterra vtorogo roda. Visnik ZNU. Fiziко-mаtеmаtichni nаuкi, 2011, no. 2, p. 131-135 (In Russian).
9. Russ. ed.: Cox D.R., Smith W.L. Teoriya vosstanovleniya. М: Sоvеtsкое rаdio, 1967, 292 p.
10. Grigor’ev L.I., Mikova E.S., Rusev V.N. Osobennosti postroeniy monitoringovikh system i otsenok pokazateley proizvodstvennykh protsessov dlya avtomatizirovannogo dispetcherskogo upravlenia v neftegazovom komplexe. Avtomatizatsiya, telemehanizatsiya i svyaz’ v neftyanoy promyshlennosti, 2014, no. 9, p. 7–12 (In Russian).
11. Rеvаzоv А.М., Lеоnоvich I.А. Rаzrаbоtка sstеariеv rаzvitiya аvariynyh situаtsiy nа коm-prеssоrnyh stаntsiyah маgistrаl’nyh gаzоprоvоdоv. Trudy RGU nefti i gaza imеni I.М. Gubкinа [Proceeding of Gubkin Russian State University of Oil and Gaz], 2015, no. 4 (281), p. 78-88 (In Russian).

Results of experimental study of processes of fatigue fracture in recovered welded joints of offshore oil and gas installations
Technical sciences

Authors: Ivan V. STAROKON graduated from Gubkin Russian State University of Oil and Gas in 2001. He is Candidate of Technical Sciences, Head of the Department of Automated Design of Oil and Gas Industry Structures of Gubkin Russian State University (National Research University) of Oil and Gas. He is sate expert of the for Industrial Safety of the Federal Service for Ecological, Technological and Nuclear Supervision of the Russian Federation. He is author of more than 80 scientific publications.
E-mail: starokon79@mail.ru

Abstract: The study of fatigue processes occurring in the reconstructed welded joints, is an urgent task, allowing to define the terms of safe operation of offshore oil and gas installations. At the present time estimation of the resource of the recovered welded joints is not possible, because existing theories only allow us to calculate the resource for new joints. In this connection research facilities were developed to study "K" and "T" shaped welds used in the offshore oil and gas installations. During the experiment fracturing was initiated in the new welded joint, and then the joint was repaired and destroyed again. Based on these experiments, mathematical relationships were derived to describe the process of fatigue failure in the recovered welds in offshore oil and gas installations. These depend on the number of cycles and amplitude values of stresses. Factors causing their premature fatigue failure were analyzed and recommendations for assessing the resource of the recovered welds were proposed

Index UDK: 622.242.422:622.276.04:622.279.04

Keywords: offshore oil and gas structures, fatigue cracks, restored welds, resource evaluation

Bibliography:
1. Borodavkin P.P. Morskie neftegazovye sooruzhenija: Uchebnik dlja vuzov. Chast’ 1. Konstruirovanie. M.: OOO „Nedra-Biznescentr”, 2006, 555 p.
2. Gubajdulin R.G., Gubajdulin M.R., Tin’gaev A.K. Opredelenie ostatochnogo resursa opornogo bloka morskoj stacionarnoj platformy. Akademicheskij vestnik UralNIIproekt RAASN, 2012, no. 1, p. 80–85.
3. Kogaev V.P., Serensen S.V. i dr. Nesushhaja sposobnost’ i raschety detalej mashin na prochnost’: Rukovodstvo i spravochnoe posobie. M.: Mashinostroenie, 1975, 488 p.
4. Klykov N.A. Raschet harakteristik soprotivlenija ustalosti svarnyh soedinenij. M.: Mashinostroenie, 1984, 160 p.
5. Starokon’ I.V. Osnovy teorii i praktiki obrazovanija ustalostnyh treshhin na morskih neftegazovyh sooruzhenijah. Sovremennye problemy nauki i obrazovanija, 2012, no. 4.
6. Steklov O.I. Prochnost’ svarnyh konstrukcij v agressivnyh sredah M.: Mashinostroenie, 1976, 200 p.
7. Trufjakov V.I. Ustalost’ svarnyh soedinenij. Kiev: Naukova dumka, 1973, 216 p.