Articles Archive

№ 4/273, 2013

Title
Authors
Category
State of the art and prospects of seismic data acquisition of russian continental oil and gas complex.
Petroleum geology, geophysics

Authors: Alexander V. BELOUSOV graduated from Gubkin Russian State University of Oil and Gas in 2002. He is Candidate of Technical Sciences, Associate Professor of the Department of Exploration Geophysics of Gubkin Russian State University of Oil and Gas. He specializes in planning of seismic surveys and quality control of materials. He is author of 15 scientific publications.E-mail: belousov.a@gubkin.ru

Abstract: The beginning of the XXI century is characterized by increasing complexity of the challenges facing the exploration stage of geological exploration operations, i.e. the reducing share of structural pools, thinning formations, increasing share of reservoirs with complex structure of pore space. Geophysical exploration methods are in the first place among the methods of prospecting and exploration. The article deals with the geography of exploration for oil and gas, reviews new methods and technologies of geophysical works focusing on the prospects of geophysical exploration, in particular, seismic surveys in various geological conditions.

Index UDK: 550.834.04

Keywords: oil and gas seismic surveys, geophysical surveys geography, geophysical surveys, seismic technique and technology

Bibliography:
1. Belousov A.V., Zakariev Yu.Sh., Musagaliev M.Z., Pleshkevich A.L., Tsypyshev N.N. Aktualnye voprosy optimizatsii geometrii 3D seysmicheskikh nablyudeniy. Geofizika, 2007, no. 3, p. 72–81.
2.
Blyumentsev A.M., Mel’chuk B.Yu. K voprosu o kachestve geofizicheskikh tekhnologiy. Pribory i sistemy razvedochnoy geofiziki, 2012, no. 39, p. 8–11.
3.
Gavrilov V.P. Neft’, gaz — vozobnovlyaemye resursy, 2007 [Elektronnyy resurs] 
http://www.gubkin.ru/faculty/geology_and_geophysics/chairs_and_departments/geology/VP_statya_ Neft%20gaz%20vozobnovlyaemy.pdf
4. Emkushev A.S., Slonov D.N., Krasnykh V.A., Kalinin A.Yu. Opyt rabot OAO “Orenburgskaya geofizicheskaya ekspeditsiya” s sistemoy beskabel’nogo sbora dannykh SCOUT v predgornykh rayonakh respubliki Kabardino-Balkariya. Pribory i sistemy razvedochnoy geofiziki, 2013, no. 43, p. 6–10.
5.
Zhukov A.P., Kolesov S.V., Shekhtman G.A., Shneerson M.B. Seysmorazvedka s vibratsionnymi istochnikami. Tver’, GERS, 2011.
6. Zakariev Yu.Sh., Marutyan V.G., Musagaliev M.Z., Pleshkevich A.L., Ryabov V.Yu, Ryaboshapko S.M., Tsypyshev N.N. Osnovnye faktory, vliyayushchie na kachestvo dannykh polevykh seysmicheskikh nablyudeniy, i sposoby ego otsenki. Geofizika, 2007, no. 3, p. 82–92.
7.
Kostitsyn V.I. Primenenie gravirazvedki pri poiskakh nefti i gaza v usloviyakh Kraynego Severa. Sovremennye naukoemkie tekhnologii, 2005, no. 1, p. 100–101.
8.
Kuznetsov V.M. Chto nuzhno ozhidat’ ot mnogovolnovoy seysmorazvedki. Pribory i sistemy razvedochnoy geofiziki, 2009, no. 30.
9. Kukolenko O.V., Seleznev V.A. K voprosu sovershenstvovaniya tekhnologiy seysmoraz- vedki pri izuchenii glubokozalegayushchikh slozhno postroennykh neftegazoperspektivnykh ob"ektov. Pribory i sistemy razvedochnoy geofiziki, 2011, no. 35, p. 41–45.
10.
Mikhaylov I.N., Ryabikov Yu.K. Gravirazvedka na neft’ i gaz, 2010 [Elektronnyy resurs] — http://neftekip.com.
11. Mikheev S.I., Postnova E.V. Tekhnologicheskie aspekty effektivnosti i uspeshnosti geologorazvedochnykh rabot na neft’ i gaz. Pribory i sistemy razvedochnoy geofiziki, 2010, no. 34, p. 5–8.
12.
Cherepovskiy A.V. Seysmorazvedka s odinochnymi priemnikami i istochnikami: obzor sovremennykh tekhnologiy i proektirovanie s"emok. M., EAGE, 2012.
13. Shneerson M.B., Zhukov A.P., Belousov A.V. Tekhnologiya i metodika prostranstvennoy seysmorazvedki. M., Spektr, 2009.

Refining fault-block model of devonian sediments by aggregating seismic data and detailed correlation of well logs (deposits of samara region).
Petroleum geology, geophysics

Authors: Igor S. GUTMAN was born in 1933. He graduated from the Moscow Mining Institute in 1956. He is Professor of the Department of Petroleum Production Geology (since 1994) at Gubkin Russian State University of Oil and Gas, Director of the Institute of Design and Scientific Expertise of Oil and Gas Fields Development. He is author and co-author of over 170 scientific publications, including seven books, 6 monographs, and 5 reference-books. Е-mail: mail@ipne.ru
Gregory N. POTEMKIN was born in 1989. He graduated from Gubkin Russian State University of Oil and Gas, he is Master of Engineering and Technology. Presently he is graduate student and junior lecturer of the Department of Petroleum Production Geology at Gubkin Russian State University of Oil and Gas. Е-mail: gpotemkin@list.ru
Sergey P. PAPUHIN graduated from the Vakhrushev Sverdlovsk Mining Institute in 1982. He is Head of the Department of Audit of Reserves and Exploration Works of “Samaraneftegaz”, PhD, author of 25 publications. Е-mail: PapukhinSP@samng.ru

Abstract: Examples of faults identified by detailed correlation of the wells logs in the Devonian clastic sediments of an oil field of the Samara region are considered. The algorithm for refining the fault model based on direct and indirect methods is shown. The proposed model is consistent with the field data, which gives grounds to review certain aspects of the development system.

Index UDK: 550.812.14

Keywords: faults, detailed correlation, fault-block model, seismic studies

Bibliography:
1. Voskresenskij Ju.N. Polevaja geofizika: uchebnik dlja vuzov. [Field geophysical exploration], Moscow, 2010, 479 p.
2. Mushin I.A., Korol’kov Yu.S., Chernov A.A. Vyyavlenie i kartirovanie diz"yunktivnykh dislokatsiy metodami razvedochnoy geofiziki. [Revelation and mapping of disjunctive dislocations by the methods of exploration geophysics], Moscow, 2001, 120 p.
3. Skripkin S.N. Automatic interpretation of structural and tectonic deformations on the basis of 3D seismic data. Trudy Rossiyskogo gosudarstvennogo universiteta nefti i gaza imeni I.M. Gub- kina [Proceedings of Gubkin Russian State University of Oil and Gas], Moscow, 2010, no. 1, pp. 18
-23.
4. Pedersen S.I, Randen T., Sonneland L. Automatic fault extraction using artificial ants. SEG Int’l Exposition and 72nd Annual Meeting, 2002.
5. Bochkarev A.V., Kalinina E.A., Bochkarev V.A. Fault-block system of Rakushechno-Shirotnaya lifting zone fields by seismic and log data. Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy. [Geology, geophysics and development of oil and gas fields], Moscow, 2013, no. 4, pp. 4
-15.
6. Ampilov Yu.P. Ot seysmicheskoy interpretatsii k modelirovaniyu i otsenke mestorozhdeniy nefti i gaza. [From seismic interpretation to the modeling and estimation of oil and gas fields], Moscow, 2008, 384 p.
7. Metodicheskie rekomendatsii k korrelyatsii razrezov skvazhin. Under the editorship of prof. I.S. Gutman. [Methodic recommendations on the well-log correlation], Moscow, 2013, 112 p.
8. Gutman I.S., Potemkin G.N., Volk E.Yu., Papukhin S.P. Geological structure features of lower carbon faormations within the limits of Kama-Kinel depression system. Nedropol’zovanie XXI vek. [Subsurface resources management XXI century], Moscow, 2013, no. 5, 6.
9. Cosentino L. Intergrated reservoir studies. Paris, Editions TECHNIP, 2001. (Russ. ed. Kosentino L. Sistemnye podkhody k izucheniyu plastov, Moscow—Izhevsk, Institut komp’yuternykh issledovaniy, NITs “Regulyarnaya i khaoti-cheskaya dinamika”, 2007, 400 p.)
10. Gutman I.S., Rudnev S.A., Saakyan M.I., Danilenko A.N., Ursegov S.O., Prokusheva S.A. Parameters of Water Contents in High Viscous Oil of Permian Carbonate Reservoirs at Ussinskoye Field with the Features of its Geological Structure at the Basis of Well Cross section Detailed Correlation. Neft’. Gaz. Novatsii. [Oil. Gas. Innovations], Moscow, 2012, no. 3, pp. 30
-40.

Generation-Accumulation Models of Hydrocarbon Systems of Pre-Ural Foredeep of Belsky Depression.
Petroleum geology, geophysics

Authors: Alexander V. OSIPOV graduated from Gubkin Russian State University of Oil and Gas in 2010. He is Assistant Professor of the Department of Theoretical Bases of Oil and Gas Exploration at Gubkin Russian State University of Oil and Gas. He is author of 10 scientific publications. E-mail: alexander.v.osipov@gmail.com

Abstract: This article presents the results of numerical basin modeling of generation-accumulation of hydrocarbons of four oil and gas systems of the Pre-Ural Foredeep of Belsky Depression: Devonian-Frasnian, Frasnian-Tournaisian, Visean-Bashkirian and Lower Permian. The studed area is ranged in terms of oil and gas prospects for each oil and gas system.

Index UDK: 550.8; 004.9

Keywords: accumulation of hydrocarbons Bel'skaya Depression, generation, hydrocarbon generation-accumulation systems, critical moment, migration, source rock, Pre-Ural Foredeep, numerical basin modeling

Bibliography:
1. Vinogradov A.P. Atlas litologo-paleogeograficheskih kart SSSR [Atlas of the lithological-paleogeographic maps of the USSR]. Moscow: Vsesojuznyj Ajerogeologicheskij Trest Ministerstva Geologii SSSR, 1969.
2. Vinogradov A.P. Atlas litologo-paleogeograficheskih kart Russkoj platformy i ee geosinklinal’nogo obramlenija [Atlas of the lithological-paleogeographic maps of Russian platform and its framing of geosynclinals]. Moscow-Leningrad: Gosudarstvennoe nauchno-tehnicheskoe izdatel’stvo literatury po geologii i ohrane nedr, 1961.
3. Geologicheskoe stroenie i neftegazonosnost’ Orenburgskoj oblasti [Geological structure and petroleum potential of the Orenburg region]. Orenburg: Orenburgskoe knizhnoe izdatel’stvo, 1997, 272 p.
4. Golovanova I.V. Teplovoe pole juzhnogo Urala [Thermal field of the southern Urals]: Doct. Diss. Ufa, 2003, 228 p.
5. Golovanova I.V., Sal’manova R.Ju. Analiz dannyh po teplovomu potoku Urala [Data analysis of heat flow of the Urals]. Geologicheskij sbornik — Geological digest. Ufa, Institut geologii Ufimskogo nauchnogo centra RAN, 2008, no. 7, pp. 233
-239.
6. Kerimov V.Ju., Hantschel T., Sokolov K., Sidorova M.S. Primenenie tehnologii bassejnovogo modelirovanie — programmnogo paketa PetroMod v uchebnom processe i nauchnyh issledovanijah [Employment of the basin modeling technologies 
program package PetroMod software into the educational processes of Gubkin Russian State University of Oil and Gas]. Neft’, gaz i biznes — Oil, gas and business. Moscow, 2011, no. 4, pp. 38-47.
7. Osipov A.V. Geohimicheskie predposylki neftegazonosnosti Bel’skoj vpadiny i prilegajushhih territorij [Geochemical conditions of oil-gas-bearing capacity of Bel’skaya depression and surrounding areas]. Neft’, gaz i biznes — Oil, gas and business. — Moscow, 2012, no. 11, pp. 44
-49.
8. Sal’nikov V.E. Geotermicheskij rezhim juzhnogo Urala [Geothermal regime of the southern Urals]. Moscow: Nauka, 1984, 88 p.
9. Magoon L.B. and Dow W.G. The petroleum system, in: The petroleum system — from source to trap. AAPG Memoir, 1994, vol. 60, p
р. 93-120.

Multi-Criteria Evaluation of Options for Development of Oil and Gas Deposits Using Method of Analytical Networks.
Drilling and development of hydrocarbon fields

Authors: Sergei M. DAMASKIN graduated from Gubkin Russian State University of Oil and Gas with Master’s degree in 2010. He is currently a graduate student of the Department of Automated Control Systems of Gubkin Russian State University of Oil and Gas. He is author of more than five scientific publications. E-mail: damaskin@mail.ru
Yuri P. STEPIN was born in 1946, he graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1969. He is Doctor of Technical Sciences, Professor of of the Department of Automated Control Systems of Gubkin Russian State University of Oil and Gas. He specializes in the field of computer-aided management decision-making. He is author of 121 scientific publications. E-mail: stepin@qubkin.ru

Abstract: A new approach to the problem of multi-criteria evaluation of options for the development of oil and gas fields on the basis of analytical networks method is proposed. It is shown that basing on the recommendations of the Rules for formulating project documents for development of oil and gas deposits and using the analytical networks method the best alternative of oil and gas field development variant can be reasonably computed using rigorous mathematical methods.

Index UDK: 622.276

Keywords: oil, gas, selection criteria, optimized decision-making, analytical networks method

Bibliography:
1. RD 153-39-007-96. Reglament sostavlenija proektnyh tehnologicheskih dokumentov na razrabotku neftjanyh i gazoneftjanyh mestorozhdenij. Moscow, 1996, 112 p.
2. Saati T.L. Prinjatie reshenij. Metod analiza ierarhij. M., Radio i svjaz’, 1993, 320 p.
3. Saati T.L. Prinjatie reshenij pri zavisimostjah i obratnyh svjazjah. Analiticheskie seti. M.: URSS, 2011, 360 p.
4. Saaty T.L. Decision making with Dependence and Feedback. The Analityc Network Process. Pittsburgh: PWS Publications, 2000, 370 p.
5. Andrejchikova O.A. Prinjatie reshenij v uslovijah vzaimnoj zavisimosti kriteriev i al’ternativ slozhnyh tehnicheskih sistem//Informacionnye tehnologii, 2001, no. 11, p
р. 14–19.
6.
Rukovodstvo pol’zovatelja programmy SuperDecisions.
7. Materialy sajta http://www.superdecisions.com.

Integrated experimental approach to determining parameters of penetration and trapping of mud components and related changes in reservoir rock permeability.
Drilling and development of hydrocarbon fields

Authors: Dmitry N. MIKHAILOV graduated from the Physics Department of Lomonosov Moscow State University in 1997. He is Candidate of Physical and Mathematical Sciences, senior researcher of the “Schlumberger” Moscow Scientific  Research Center. He is author of more than 40 scientific publications in the field of multiphase flow in porous media, acoustics of porous media, theory of hydrofracturing, electrokinetic effects. E-mail: DMikhailov2@exchange.slb.com
Nikita I. RYZHIKOV graduated from Moscow Physical and Technical Institute in 2011. He is in his third year of postgraduate studies at Moscow Physical and Technical Institute and researcher at the Moscow Research Center of “Schlumberger”. E-mail: nryzhikov@slb.com
Valery V. SHAKO graduated from Moscow Physical and Technical Institute from in 1982. He is Head of the R&D Department at the “Schlumberger” Moscow Scientific  Research Center. He is specialist in the field of numerical simulation and experimental studies of hydrodynamics and heat transfer in petroleum reservoirs and wells, author of more than 30 scientific publications. E-mail: vshako@slb.com

Abstract: Changing the properties of the near-wellbore formation zone under the influence of peneratng mud components or other process fluids have a significant impact on the subsequent opertion of the well, formation testers data and geophysical instruments. Laboratory filtration experiments with mud can only measure the integral hydraulic resistance of the core sample, which is insufficient for understanding the mechanism of the formation damage. This work is aimed at developing methods to obtain additional data on the process of core contamination with mud components. The paper presents methods for constructing profiles of captured components in porous media using X-ray microcomputed tomography, analyzing pictures of broken core and acoustic profiling of contaminated samples of porous medium. A method for estimating the concentration of the polymer in a liquid filtered through the sample by measuring its rheological properties is proposed. The components capture in the porous medium are evaluated using analytical solutions for the profile of the captured components coefficients.

Index UDK: 532.546

Keywords: porous medium, transport of hard particles, mud

Bibliography:
1. Civan F. Reservoir formation damage: fundamentals, modeling, assessment and mitigation. SecondEdition. GulfPublishingCompany, 2007, 1089 р.
2. Mikhailov N.N. Izmenenie fizicheskikh svoistv gornykh porod v okoloskvazhinnykh zonakh. M.: Nedra, 1987, 151 p.
3. Longeron D.G., Alfenore J., Salehi N., Saintpère S. Experimental approach to characterize drilling mud invasion, formation damage and cleanup efficiency in horizontal wells with openhole completions. SPE 58737, 2000.
4. Boek E.S., Hall C., Tardy P.M.J. Deep bed filtration modelling of formation damage due to particulate invasion from drilling fluids. Transport in Porous Media, 2012, v. 91, no. 2, pp. 479–508.
5.
Jiao D., Sharma M.M. Formation Damage due to Static and Dynamic Filtration of Water — Based Muds. SPE 23823, 1992.
6. Herzig J.P., Leclerc D.M., Le Goff P. Flow of Suspensions through Porous Media — Application to Deep Filtration. Industrial and Engineering Chemistry, 1970, vol. 62, no. 5, p
р. 8–35.
7.
Ives K.J., Pienvichitr V. Kinetics of filtration of dilute suspensions. Chemical Engineering Science, 1965, vol. 20, no. 11, pp. 965–973.
8.
Tien C., Payatakes A.C. Advances in deep bed filtration. IChE Journal, 1979, vol. 25, no. 5, pp. 737–759.
9.
Bedrikovetsky P., Marchesin D., Shecaira F., Souza A.L., Milanez P.V., Rezende E. Characterisation of deep bed filtration system from laboratory pressure drop measurements. Journal of Petroleum Science and Engineering, 2001, v. 32, Issues 2–4, pp. 167–177.
10.
Shekhtman Yu.M. Fil’tratsiya malokontsentrirovannykh suspenzii. M., Nedra, 1961.
11. Zaitoun A., Kohler N. The role of adsorption in polymer propagation through reservoir rocks//SPE 16274-MS, 1987.
12. Bai R., Tien C. Effect of deposition in deep-bed filtration: determination and search of rate parameters. Journal of Colloid and Interface Science, 2000, vol. 231, pp. 299–311.
13.
Ryzhikov N.I., Mikhailov D.N., Shako V.V. Metod rascheta profilei raspredeleniya poristosti i ob’emnykh dolei materialov v poristoi srede s pomoshch’yu analiza dannykh rentgenovskoi mikrotomografii. Trudy MFTI, 2013, t. 5, no. 4 (20), pp. 161–169.
14.
Guo. H et al. Rock fracture-toughness determination by the Brazilian test. Engineering Geology, 1993, vol. 33, pp. 177–188.
15.
Dobrynin V.M., Vendel’shtein B.Yu., Kozhevnikov D.A. Petrofizika (fizika gornykh porod). M.: “Neft’ i gaz” RGU nefti i gaza im. I.M. Gubkina, 2004, 368 p.
16. Nikolaevskii V.N., Basniev K.S., Gorbunov A.T., Zotov G.A. Mekhanika nasyshchennykh poristykh sred. M.: Nedra, 1970, 339 p.
17. Khan M.A. e
t al. A non-destructive method for mapping formation damage. Ultrasonics, 2001, vol. 39, pp. 321–328.

Changing operating conditions along the length of pipeline transporting high viscosity crudes.
Design, construction and operation of pipeline transport

Authors: Vadim A. POLYAKOV graduated from Lomonosov Moscow State University in 1981 majoring in “mechanics”. He is Professor of the Department of Design and Operation of Oil and Gas Pipelines of Gubkin Russian State University of Oil and Gas. He is a specialist in the design and operation of pipeline transportation systems of oil and gas. He is author of 86 publications. E-mail: vapolyakov@rambler.ru
Roman A. SHESTAKOV graduated from Gubkin Russian State University of Oil and Gas in 2013. He is postgraduate student of the Department of Design and Operation of Oil and Gas Pipelines of Gubkin Russian State University of Oil and Gas, specializing in the design of pipeline transportation systems of oil. E-mail: dur187@mail.ru

Abstract: The article shows variations in operating conditions along the length of the pipeline, i.e. changed hydraulic gradient in a center section of the pipeline. The change in the position of this section is found to depend on the ambient temperature. The numerical tool for calculating the parameters of a technological mode for the entire length of the pipeline.

Index UDK: 622.692

Keywords: oil, technological regime, viscous oil, computational tools

Bibliography:
1. RD-23.040.00-KTN-110-07. Magistral’nye nefteprovody. Normy proektirovanija. M., OAO “AK “Transneft’”, 2007.
2. RD Unificirovannye tehnologicheskie raschety ob#ektov magistral’nyh nefteprovodov i nefteproduktoprovodov. M., OAO “AK “Transneft’”, 2009.

Workshop panel on gas chemistry at gubkin russian state university of oil and gas.
Oil and gas processing, chemistry of oil and gas

Authors: Albert L. LAPIDUS was born in 1933, he graduated from Lomonosov MITHT University in 1957, specializing in “Chemical Technology of Fuels”. He is Doctor of Science, professor, corresponding member of the Russian Academy of Sciences, Head of the Department of Gas Chemistry of Gubkin Russian State University of Oil and Gas. He is author of 600 scientific papers, including 4 monographs. E-mail: albert@ioc.ac.ru
Albert I. VLADIMIROV was born in 1939, he graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1963 specializing in “Machinery and Equipment of Chemical Plants”. He has been Full Professor of the Department of Oil and Gas Processing Equipment since 1992, President of the university since 2008. He has prepared 5 PhDs. He is author of over 200 scientific papers, textbooks and teaching aids for univer- sities. E-mail: trudyrgung@gubkin.ru
Irina A. GOLUBEVA graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1962 specializing in “Technology of basic organic synthesis”. She is Doctor of Chemical Sciences, Professor, Deputy Head of the Department of Gas Chemistry of Gubkin Russian State University of Oil and Gas, scientific secretary of the workshop panel on gas chemistry. She is author of over 250 scientific papers. E-mail: trudyrgung@gubkin.ru

Abstract: The article is devoted to the workshop panel of the Department of Gas Chemistry of Gubkin Russian State University of Oil and Gas. The composition of the participants is considered and subjects of presentations are analyzed, as well as the atmosphere of discussion and debate. The importance of collections of scientific papers produced every two years and containing the full texts of presentations is emphasized.

Index UDK: 665.62

Keywords: workshop panel, gas chemistry, gas processing, natural gases, Gazprom, synthesis gas, fuels, environment, gas sulfur

Bibliography:
1. Gazohimija v XXI veke. Problemy i perspektivy. Trudy moskovskogo seminara po gazohimii. Pod redakciej A.I. Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2003, vol. 1, 287 p.
2. Aktual’nye problemy gazohimii. Trudy moskovskogo seminara po gazohimii. Pod redakciej A.I.Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2004, vol. 2, 182 p.
3. Problemy i perspektivy razvitija gazohimii. Trudy moskovskogo seminara po gazohimii. Pod redakciej A.I. Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2006, vol. 3, 227 p.
4. Sovremennye tendencii v razvitii gazohimii. Trudy moskovskogo seminara po gazohimii. Pod redakciej A.I. Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2008, vol. 4, 316 p.
5. Gazohimija na sovremennom jetape razvitija. Trudy moskovskogo seminara po gazoimii. Pod redakciej A.I.Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2010, vol. 5, 206 p.
6. Perspektivnye napravlenija razvitija gazohimii. Trudy moskovskogo seminara po gazohimii. Pod redakciej A.I.Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2012, vol. 6, 241 p.
7. Kislenko N.N. Sostojanie i perspektivy razvitija gazopererabatyvajushhej podotrasli. Trudy moskovskogo seminara po gazohimii. Pod redakciej A.I.Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2003, vol. 1, pp. 7
-32.
8. Chajka S.E., Shkoda A.M., Arutjunov V.S. Gazohimicheskme tehnologii v sistemah utilizacii prirodnyh gazov//Trudy moskovskogo seminara po gazohimii/Pod redakciej A.I. Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2012, vol. 6, pp. 151
-165.
9. Dergachev A.A., Lapidus A.L. Kataliticheskij sintez aromaticheskih uglevodorodov iz alkanov C2
-C5 — komponentov prirodnogo gaza. Nauchnye osnovy i perspektivy prakticheskoj realizacii. Trudy moskovskogo seminara po gazohimii. Pod redakciej A.I. Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2004, vol. 2, pp. 113-132.
10. Lapidus A.L., Krylova A.Ju. Sostojanie i perspektivy razrabotok v oblasti promyshlennogo osushhestvlenija sinteza uglevodorodov iz SO i N2. Trudy moskovskogo seminara po gazohimii. Pod redakciej A.I. Vladimirova i A.L. Lapidusa. M.: Neft’ i gaz, 2003, vol. 1, pp. 171
-226.
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-31

Using polymeric agents for eor and waterproofing.
Oil and gas processing, chemistry of oil and gas

Authors: Sergey A. SHUVALOV completed Mater’s Program at Gubkin Russian State University of Oil and Gas. He is graduate student, junior researcher at the Department of Physical and Colloid Chemistry Gubkin Russian State University of Oil and Gas. E-mail: shuvalovsa@mail.ru
Vladimir A. VINOKUROV was born in 1950, he graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1972. He is Doctor of Chemical Sciences, Professor, Head of the Department of Physical and Colloid Chemistry of Gubkin Russian State University of Oil and Gas. He is author of over 255 scientific papers. E-mail: vinok_ac@mail.ru
Vadim N. KHLEBNIKOV was born in 1957, hе graduated from the Bashkir State University in 1979. He is Doctor of Technical Sciences, Professor of the Department of Physical and Colloid Chemistry at Gubkin Russian State University of Oil and Gas, Head of the Laboratory oil “URDcenter” (Moscow). He is author of over 160 scientific papers, including one monograph and 30 patents. E-mail: trudyrgung@gubkin.ru

Abstract: Solving the problem of unsustainable oil recovery, the main natural resource of Russia, is quite an important and urgent task. Excessive water cut of produced oil is one of the main problems faced by the oil industry. Physical and chemical methods of enhanced oil recovery are most common in Russia. The use of polymeric agents can successfully reduce water cut and increase oil recovery factor (ORF). Development of nanoparticle-based agents is an important way of improving polymeric materials for enhanced oil recovery.

Index UDK: 665.6

Keywords: residual oil, enhanced oil recovery methods, poly-dimensional flooding, crosslinked polymer systems, nano-agents

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Kaushanskiy D.A. Novye tekhnologii povysheniya nefte- i gazootdachi. URL: http://oilgas-journal.ru/2009-1/1-rubric/kaushansky.html.
29. Laverov N.P. Toplivno-energeticheskie resursy. Vestnik RAN, 2006, t. 76, no. 5, pp. 398–408.
30.
Khavkin A.Ya. Neftegazovye nanotekhnologii — osnova ekonomiki XXI veka. Nanotekhnologii. Ekologiya. Proizvodstvo, 2013, no. 2, pp. 54–59.
31.
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Authors: Lyudmila V. IVANOVA graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1983. She is Associate Professor of the Department of Organic Chemistry and Petroleum Chemistry of Gubkin Russian State University of Oil and Gas. She is author of more than 80 scientific papers in the field of petroleum chemistry. E-mail: ivanova.@gubkin.ru
Veronica K. MILLER graduated from Gubkin Russian State University of Oil and Gas Master’s program in 2010. She works as engineer of LLC “Izhevsk Oil Research Center”. She is currently working for her candidate of sciences degree at the Department of Organic Chemistry and Petroleum Chemistry of Gubkin Russian State University of Oil and Gas. E-mail: VKMiller@udmurtneft.ru
Vladimir N. KOSHELEV born in 1953. He graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1975. He is First Vice Rector for Academic Affairs, Head of the Department of Organic Chemistry and Petroleum Chemistry of Gubkin Russian State University of Oil and Gas. He is author of over 280 scientific papers in the field of organic and petroleum chemistry. E-mail: koshelev.v@gubkin.ru

Abstract: The composition of organic and mineral components of asphalt and paraffin deposits (APS) of the fields of Udmurtia is identified. The hazard category of deposits relating to oil wastes produced at all stages of production, transportation and treatment. It is shown that the total factor severity is significantly higher with the environmental hazard of all components of the organic phase deposits taken into account versus the «simplified» approach.

Index UDK: 502.13

Keywords: hazard category, oil wastes, asphalt, resin and paraffin deposits, method of calculation to determine hazard category

Bibliography:
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2. Glushhenko V.N., Silin M.A., Gerin Ju.G. Neftepromyslovaja himija. Tom 5. Preduprezhdenie i ustranenie asfal’tosmoloparafinovyh otlozhenij. M.: Interkontakt, Nauka, 2009, 475 
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Strategic management of long-term plan of technological development of oil and gas companies.
Economics and management in fuel and energy complex industries

Authors: Alexander A. SINEL’NIKOV graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1966 and graduate school of the Institute of Control of the Russian Academy of Sciences. He is Candidate of Technical Sciences, Associate Professor of the Department of Industrial Management of Gubkin Russian State University of Oil and Gas. He specializes in the field of management and optimization. He is author of more than 80 scientific publications. E-mail: sinelnikov rgung@mail.ru

Abstract: The problem of implementing a long-term technology plan to provide for strategic needs of a vertically integrated oil and gas company is considered. A concept of managing the implementation of a long-term technology plan basing on integrated planning process and providing for the development of effective set of procedures to analyze strategic and innovative approaches to the implementation of long-term technology plan is proposed. It is shown that a company's stable competitiveness is achieved through linking closer strategic objectives and technological resources to implement long-term plans of technological development.

Index UDK: 65.050

Keywords: technological development, long term planning, integrated planning, process of innovation, technology management

Bibliography:
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3. Sinel’nikov A.A. Problemy realizacii strategicheskogo podhoda k upravleniju tehnologicheskim razvitiem neftegazovoj kompanii. Trudy RGU nefti i gaza imeni I.M. Gubkina, no. 3 (272), 2013, pp. 119–137.
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Sinel’nikov A.A. Ocenka i vybor NIOKR na predprijatijah neftegazovogo kompleksa. Problemy jekonomiki i upravlenija neftegazovym kompleksom, 2008, no. 8, pp. 39–43.
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Sinel’nikov A.A. Osnovy formirovanija innovacionnoj strategii na predprijatijah neftegazovogo kompleksa. Problemy jekonomiki i upravlenija neftegazovym kompleksom, 2008, no. 9, pp. 16–19.