Articles Archive

№ 2/271, 2013

Title
Authors
Category
Structure of carbonate mounds of barrier reefs and overlying terrigenous deposits of Pamyatno-Sasovskoye field in Volgograd Volga Region on the basis of detailed correlation of well sections and seismic studies
Petroleum geology, geophysics

Authors: Igor S. GUTMAN was born in 1933. He graduated from the Moscow Mining Institute. He is Professor, Candidate of Geological and Mineralogical Sciences, Director of the Institute of Design and Scientific Expertise (IPNE), Director of the Center for Computer Modeling of Hydrocarbon Deposits, Honored Geologist of the Russian Federation (2004), Member of the Russian Academy of Natural Sciences (2000), higher category expert of the State Reserves Committee (Rosnedra). For many years he was a member of the oil section of the Central Development Committee (CDC), chairman of the NTO NGP of Gubkin Russian State University of Oil and Gas (since 2000), author and co-author of over 150 scientific publications, including seven books, 6 monographs, 5 reference books. Е-mail: mail@ipne.ru
Valery V. STAROSVETSKY was born in 1988. He graduated from Gubkin Russian State University of Oil and Gas in 2011 specializing in oil and gas geology and hydrogeology of hydrocarbon deposits. He is Master of Engineering and Technology and graduate student of the Department of Production Geology of Oil and Gas of Gubkin Russian State University of Oil and Gas. Е-mail: v.starosvetskov@yandex.ru
Alexey V. TARASOV is Deputy Director General in the geology and development of CCI “Volgogradneftegaz”. E-mail: trudyrgung@gubkin.ru
Sergei I. CHIZHOV was born in 1940, he graduated from the Geological Department of the Grozny Oil Institute. He is Candidate of Technical Sciences, Honorary Worker of the Fuel and Energy Complex of Russia (2000), winner of the Gubkin Prize (2006), Head of the Department of Geology and Development, Chief Geologist, LLC “LUKOIL-Nizhnevolzhsk” (1999–2005). E-mail: trudyrgung@gubkin.ru

Abstract: The paper establishes features of the geological structure on the basis of seismic surveys in complex with the results of detailed correlation of the excavated part of the barrier reef carbonate sediments and overlying terrigenous deposits. The traceability of rocks packs in the inter-well space of the barrier reef is determined. The overlying formations are shown to link up with the slopes of the carbonate rock. The presence of tectonic disturbances in the body of the reef is suggested.

Index UDK: 550.812.14

Keywords: seismic studies, correlation, reef mass, terrigenous deposits

Bibliography:
1. Stratigraficheskij kodeks Rossii. 3d ed. Petersburg, 2006. 96 s.
2. Pustovalov L.V. Petrografija osadochnyh porod. — [Petrography of sediments]. — Moscow-Leningrad, 1940, Т. 1, 476 р. T. 2. 420 р.
3. Leeder M.L. Sedimentology. Process and Product. London, 1982 [Rus. ed.: Lider M.R. Sedimentologija. Processy i produkty, M.: Mir, 1986, 439 р.]
4. Friedman G.V., Sanders J.E. Principles of Sedimentology. New York: John Wiley and Sons, 1978, 792 p.
5. Tolkovyj slovar’ anglijskih geologicheskih terminov. M.: Mir, 1979. T. 1, 543 p. T. 2, 586 р. T. 3, 586 р.
6. Tolkovyj slovar’ anglijskih geologicheskih terminov. M.: Geokart, 2002. T. 1, 546 s. T. 2, 644 р.
7. Krasheninnikov G.F. Litologija. Bol’shaja Sovetskaja Jenciklopedija, 1973. T. 14, рр. 560–561.
8.
Frolov V.T. Litologija. — M.: MGU. Kn. 1, 1992, 336 p. Kn. 2, 1993, 432 p. Kn. 3, 1995, 352 p.
9. Japaskurt O.V. Litologija. M.: Akademija, 2008, 336 p.
10. Sedimentology, 2000. V. 47, Supplement 1, P. 1, 256 р.
11. Selley R. Introduction to Sedimentology. New York: Academic Press, 1976, 408 р. [Rus. ed.: Selli R.K. Vvedenie v sedimentologiju. M.: Nedra, 1981, 370 р.].
12. Selley R. Applied Sedimentology. Academic Press, 2000, 523 p.
13. Tucker M.E., Wright V.P. Carbonate sedimentology. Oxford: Blackwell Sc. Publ., 1990, 482 p.
14. Tihomirov S.V. Litologija i ee sootnoshenie s drugimi naukami. Izvestija vuzov. Geologija i razvedka, 1977. No. 5, рр. 20–40.
15.
Kazanskij Ju.I. Sedimentologija. Novosibirsk: Nauka, 1976, 273 р.
16. Romanovskij S.I. Sedimentologicheskie osnovy litologii. L.: Nedra, 1977, 408 р.
17. Ronov A.B. Stratisfera, ili osadochnaja obolochka Zemli (kolichestvennoe issledovanie). M.: Nauka, 1993. 144 р.
18. Janshin A.L. Jevoljucija geologicheskih processov v istorii Zemli. Leningrad: Nauka, 1988, 39 р.
19. Alekseev V.P. Litologija. Ekaterinburg: Izd-vo UGGU, 2004, 253 р.
20. Walther J. Einleitung in die Geologie als historische Wissenschaft. Iena: Gustav Fischer, 1893–1894, 1055 p.

Lithology vs sedimentology: causes of mismatch of terms in Russian and English literature
Petroleum geology, geophysics

Authors: Vitaly G. KUZNETSOV graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1959, he is Doctor of Geological and Mineralogical Sciences, Professor of the Department of Lithology of Gubkin Russian State University of Oil and Gas. He specializes in lithology and geology of oil and gas. He is author of over 470 scientific publications, including 25 monographs, textbooks and teaching aids. E-mail: vgkuz@yandex.ru

Abstract: The correlation of the concept of «lithology» in domestic geology and that of «sedimentology» in Western literature is considered. It is shown that in spite of the partial differences, these terms define the science of sedimentary rocks, with the single object of study, research methods, the same type of disciplines. Existing differences of different authors are not fundamental. The reasons for the occurrence of different terms are discussed.

Index UDK: 551.3.051

Keywords: sedimentary rocks, lithology, sedimentology, etimology of the terms

Bibliography:
1. Stratigraficheskij kodeks Rossii. 3d ed. Petersburg, 2006. 96 s.
2. Pustovalov L.V. Petrografija osadochnyh porod. — [Petrography of sediments]. — Moscow-Leningrad, 1940, Т. 1, 476 р. T. 2. 420 р.
3. Leeder M.L. Sedimentology. Process and Product. London, 1982 [Rus. ed.: Lider M.R. Sedimentologija. Processy i produkty, M.: Mir, 1986, 439 р.]
4. Friedman G.V., Sanders J.E. Principles of Sedimentology. New York: John Wiley and Sons, 1978, 792 p.
5. Tolkovyj slovar’ anglijskih geologicheskih terminov. M.: Mir, 1979. T. 1, 543 p. T. 2, 586 р. T. 3, 586 р.
6. Tolkovyj slovar’ anglijskih geologicheskih terminov. M.: Geokart, 2002. T. 1, 546 s. T. 2, 644 р.
7. Krasheninnikov G.F. Litologija. Bol’shaja Sovetskaja Jenciklopedija, 1973. T. 14, рр. 560–561.
8.
Frolov V.T. Litologija. — M.: MGU. Kn. 1, 1992, 336 p. Kn. 2, 1993, 432 p. Kn. 3, 1995, 352 p.
9. Japaskurt O.V. Litologija. M.: Akademija, 2008, 336 p.
10. Sedimentology, 2000. V. 47, Supplement 1, P. 1, 256 р.
11. Selley R. Introduction to Sedimentology. New York: Academic Press, 1976, 408 р. [Rus. ed.: Selli R.K. Vvedenie v sedimentologiju. M.: Nedra, 1981, 370 р.].
12. Selley R. Applied Sedimentology. Academic Press, 2000, 523 p.
13. Tucker M.E., Wright V.P. Carbonate sedimentology. Oxford: Blackwell Sc. Publ., 1990, 482 p.
14. Tihomirov S.V. Litologija i ee sootnoshenie s drugimi naukami. Izvestija vuzov. Geologija i razvedka, 1977. No. 5, рр. 20–40.
15.
Kazanskij Ju.I. Sedimentologija. Novosibirsk: Nauka, 1976, 273 р.
16. Romanovskij S.I. Sedimentologicheskie osnovy litologii. L.: Nedra, 1977, 408 р.
17. Ronov A.B. Stratisfera, ili osadochnaja obolochka Zemli (kolichestvennoe issledovanie). M.: Nauka, 1993. 144 р.
18. Janshin A.L. Jevoljucija geologicheskih processov v istorii Zemli. Leningrad: Nauka, 1988, 39 р.
19. Alekseev V.P. Litologija. Ekaterinburg: Izd-vo UGGU, 2004, 253 р.
20. Walther J. Einleitung in die Geologie als historische Wissenschaft. Iena: Gustav Fischer, 1893–1894, 1055 p.

Cyclic recurrence and development of reservoir rocks in lower devonian sediments of Khoreyverska Varandej-Adzviny petroleum regions
Petroleum geology, geophysics

Authors: Olga V. SIVALNEVA graduated from Gubkin Russian State University of Oil and Gas in 2011. She is postgraduate student of the Department of Lithology of Gubkin Russian State University of Oil and Gas, specializing in the geology and lithology of oil and gas fields. E-mail: ejikow@gmail.com
Aleksandr B. RAPOPORT is a student of the Master’s Program of Gubkin Russian State University of Oil and Gas. E-mail: a.rapoport@me.com

Abstract: The Lower Devonian sediments in Khoreyversk and Varandej-Adzvin petroleum regions are compared. The summary of previous research and analysis of information obtained during drilling in recent years allowed to identify cyclites in well logs. The logs are grouped into three main types, depending on the number of identified cyclites. The types of reservoir rocks and their distribution in the logs are determined. The forecast of reservoir rocks distribution in the Lower Devonian sediments of these areas is given

Index UDK: 551.7.022

Keywords: Lower Devonian sediments, lithological and facies zonation cyclites, types of sections, bioherm rocks, dolomitization

Bibliography:
1. Antoshkina A.I. Rify v paleozoe Pechorskogo Urala. St-Pb.: Nauka, 1994, 154 р.
2. Bagrintseva K.I., Dmitrievski A.N., Bochko R.A. Atlas karbonatnyh kollektorov mestorozhdenij nefti i gaza Vostochno-Evropejskoj i Sibirskoj platform. M.: Nauka, 2003, 264 р.
3. Bagrintseva K.I. Uslovija formirovanija i svojstva karbonatnyh kollektorov nefti i gaza. M.: RGGU, 1999, 285 р.
4. Zemchugova V.A. Zhemchugova V.A. Prirodnye rezervuary v karbonatnyh formacijah Pechorskogo neftegazonosnogo bassejna. M., 2002, 243 р.
5. Kuznetsov V.G. Prirodnye rezervuary nefti i gaza karbonatnyh otlozhenij. M.: Nedra, 1992, 240 р.
6. Malishev N.A. Tektonika, jevoljucija i neftegazonosnost’ osadochnyh bassejnov evropejskogo severa Rossii. Ekaterinburg, 2002, 268 р.
7. Menner V.Vl. Litologicheskie kriterii neftegazonosnosti paleozojskiz tolshh severo-vostoka Russkoj platform. M.: Nauka, 1989, 133 р.
8. Postsedimentacionnye izmenenija karbonatnyh porod i ih znachenie dlja istoriko-geologicheskih rekonstrukcij. Pod. red. V.G. Kuznecova. M.: Nauka, 1980, 96 р.
9. Neftegazonosnost’ Severo-Zapadnogo i Vostochnyh regionov Rossii. M. Prishchepa i dr. St-Pb.: Nedra, 2009, 271 р.
10. Taninskaya N.V. Model’ sedimentacii sredneordoviksko-nizhnedevonskih otlozhenij Pechoro-Barencevomorskogo bassejna i prognoz kollektorov: Diss. d. g-m. Nauk. St-Pb, 2001, 260 р.
11. Taninskaya N.V. Sedimentologicheskie kriterii prognoza kollektorov v sredneordoviksko-nizhnedevonskih otlozhenijah Timano-Pechorskoj provincii. Neftegazovaja geologija. Teorija i praktika, 2010. V. 5. Nо 4. http://www.ngtp.ru/rub/2/52_2010.pdf

Ultrasonic system based on piezo ceramic emitters and technology for reworking oil wells
Drilling and development of hydrocarbon fields

Authors: Vladimir O. ABRAMOV is Doctor of Technical Sciences, Head of the Laboratory of Ultrasonic Equipment and Technology of the Kurnakov Institute of General and Inorganic Chemistry. . E-mail: trudyrgung@gubkin.ru
Marat S. MULLAKAEV is Doctor of Technical Sciences, Senior Research Fellow of the Kurnakov Institute of General and Inorganic Chemistry. E-mail: trudyrgung@gubkin.ru
Igor B. ESIPOV was born in 1945. He graduated from Moscow Physico-Technical Institute in 1968, specializing in “Ultrasonic Engineering”. He is Doctor of Physical and Mathematical Sciences, Professor of Gubkin Russian State University of Oil and Gas. He has published 89 scientific papers. E-mail: igor.esipov@mail.ru
Vladimir O. PROKOPTSOV is a lecturer of Khabarovsk Institute of Infocomm branch of the Siberian State University of Telecommunications and Informatics (FGOBU VPO “SibSUTI”). E-mail: trudyrgung@gubkin.ru

Abstract: The results of the development and testing of the ultrasonic complex and technology for enhanced recovery of oil using piezoelectric ceramic emitters are presented. Pilot tests of the complex at the Samotlor oil field (Western Siberia) showed high efficiency of ultrasonic cleaning technology of the bottom hole zone, so oil companies can consider this technology as one of the promising methods for enhancing oil recovery.

Index UDK: 532.133, 622.69, 534-8

Keywords: oil, enhanced oil recovery techniques, bottom-hole zone, ultrasonic complex, ultrasonic technology, piezo emitter, pilot test, well flow factor

Bibliography:
1. Povyshenie produktivnosti reanimacija skvazhin s primeneniem vibrovolnovogo vozdejstvija/ V.P. Dyblenko, R.N. Kamalov, R.Ja. Sharifullin, I.A. Tufanov. M.: Nedra. 2000, 381 р.
2. Surguchev M.L., Kuznecov O.L., Simkin Je.M. Gidrodinamicheskoe, akusticheskoe, teplovoe ciklicheskoe vozdejstvie na neftjanye plasty. M.: Nedra, 1975, 320 р.
3. Kuznecov O.L., Efimova S.A. Primenenie ul’trazvuka v neftjanoj promyshlennosti. — M.: Nedra,1983, 192 р.
4. Kuznecov O. L., Simkin Je. M., Chilingar Dzh. Fizicheskie osnovy vibracionnogo i akusticheskogo vozdejstvija na neftegazovye plasty. M: Mir, 2001, 260 р.
5. Ibragimov L.H., Mishhenko I.T., Chelojanc D.K. Intensifikacija dobychi nefti. M.: Nauka, 2000, 414 р.
6. Apasov T.K. Analiz provedenija GRP na primere jurskih plastov. Neft’ i gaz Zapadnoj Sibiri. — Tom 1. — Tjumen’: TjumGNGU, 2003, 98 р.
7. Mullakaev M.S. Ul’trazvukovaja intensifikacija tehnologicheskih processov dobychi i pererabotki nefti, ochistki neftezagrjaznennyh vod i gruntov: Dis. dokt. tehn. nauk: 22.03.12, Moskva, 2012, 391 р.
8. Ul’trazvukovaja tehnologija povyshenija produktivnosti nizkodebitnyh skvazhin. M.S. Mullakaev, V.O. Abramov, A.A. Pechkov, I. L. Eremenko, V.M. Novotorcev, V.M. Bajazitov, I. B. Esipov, D.A. Baranov, A.A. Saltykov. Neftepromyslovoe delo. 2012, nо. 4, рр. 25–31.
9.
Kompleks oborudovanija i sonohimicheskaja tehnologija vosstanovlenija produktivnosti neftjanyh skvazhin. V.O. Abramov, M.S. Mullakaev, V.T. Kalinnikov, A.V. Abramova, V.M. Bajazitov, I.B. Esipov, A.A. Saltykov, Ju.A. Saltykov. Neftepromyslovoe delo, 2012, nо. 9, рр. 25–30.
10.
Kompleksnye shemy ul’trazvukovogo vozdejstvija na plasty Samotlorskogo mestorozhdenija. T.K. Apasov, V.O. Abramov, M.S. Mullakaev, Ju.A. Saltykov, G.T. Apasov, R.T. Apasov. Nauka i TJeK, 2011. Nо. 6, рр. 80–84.

Analysis of the results of double hydrofracturing via production wells
Drilling and development of hydrocarbon fields

Authors: Marina V. MITROFANOVA graduated from Almetyevsk State Oil Institute in 2005. She is a graduate student of the Department of Development and Exploitation of Oil Fields Gubkin Russian State University of Oil and Gas. E-mail: mitrofanovamv@gmail.com

Abstract: The article discusses the results of the re-fracturing via production wells. The efficiency of re-fracturing combinations is considered. The effectiveness of the geological and technical measures to increase oil recovery is evaluated. It is shown that the reason for the re-fracturing is often a decrease in productivity of the well after the initial fracture due to the gradual deterioration of reservoir properties with time.

Index UDK: 622.276.66

Keywords: hydraulic fracturing (frac), repeated fracturing, efficiency evaluation

Bibliography:
1. Jekonomides M., Olini R. Unificirovannyj dizajn gidrorazryva plasta. Ot teorii k praktike. Izhevsk: Institut komp’juternyh issledovanij, 2007, 234 р.
2. Hubber M.K., Willis D.G. Mechanics of Hydraulic Fracturing. Trans. AIME 210, 1957, рр. 153–166.
3. Hunt
J.L., Soliman, M.Y. Reservoir Engineering Aspects of Fracturing High-Permeability Formations. Paper SPE 28803, 1994.
4. Wright C.A. Hydraulic fracture re-orientation in primary and secondary recovery from low-permeability reservoirs. Paper SPE 30484, 1995.
5. Sabitov R.R., Korotenko V.A. Teorija raspoznavanija obrazov v neftegazopromyslovoj praktike. Neftegazovoe delo, 2011, no. 5.
6. Kulikov A.N., Zaharov V.P. Rezul’taty faktornogo analiza jeffektivnosti metodov intensifikacii dobychi nefti i ih vlijanija na konechnuju nefteotdachu plastov. Jelektronnyj nauchnyj zhurnal “ISSLEDOVANO V ROSSII”. URL: http: zhurnal.ape.relarn.ru.articles.2005223.pdf (data obrashhenija: 18.02.2013).
7. Kanevskaja R.D. Matematicheskoe modelirovanie razrabotki mestorozhdenij nefti i gaza s primeneniem gidravlicheskogo razryva plasta. M.: OOO Nedra-Biznescentr, 1999, 212 р.
8. Konstantinov S.V., Gusev V.I. Tehnika i tehnologija provedenija gidravlicheskogo razryva plastov za rubezhom. M.: VNIIOJeNG, 1985, 61 р.

Numerical modeling of heat transfer in new disc regenerative crystallizer
Design, manufacturing and operation of oil and gas sector equipment and facilities

Authors: Anatoly V. VISHNEVSKY was born in 1951. He graduated from Grozny Oil Institute in 1974 and defended his thesis in 1982. He is Director General of the Russian-Israeli company “Yutec Technologies Ltd.”, author of 34 articles and 26 patents in the field of oil refining. E-mail: leaderinter@mail.ru
Sergey S. KRUGLOV was born in 1987. He graduated from the master’s program of Gubkin Russian State University of Oil and Gas in 2011. He is a graduate student of the Department of Oil and Gas Processing of Gubkin Russian State University of Oil and Gas and engineer in the department of calculations of the strength prediction of the project company ZAO “Petrokhim Engineering”. He is author 5 publications in the field of application of numerical calculation methods and computer simulations to study oil and gas processing equipment. E-mail: s.kruglov@inbox.ru
Victor A. LUKYANOV was born in 1953. He graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1974, he defended his dissertation in 1977. He is now Head of the Department of Oil and Gas Processing Equipment at Gubkin Russian State University of Oil and Gas. He is author of over 75 scientific papers and 3 inventions aimed at improving the operation of the equipment of oil and gas processing facilities. E-mail: luk@gubkin.ru

Abstract: The article describes a new design of disc scraping regenerative crystallizer for dewaxing oils and de-oiling slack waxes and petrolatums. To study heat transfer in the crystallizer of this design a computer model of one section of the unit was built. The problem of conjugate heat transfer was solved in a specialized software package based on the numerical finite volume method. The results of numerical simulations, the comparison of the data provided by the developers of the disk crystallizer are presented. The study results showed that the proposed model adequately describes the hydro- and thermodynamic modes of the commercial crystallizer.

Index UDK: 665.637.73+665.637.76+536.243

Keywords: crystallizer, disc crystallizer, regenerative crystallizer, dewaxing, de-oiling, raffinate, paraffin, slack wax, ceresin, petrolatum, computational fluid dynamics, conjugate heat transfer, computer simulation, numerical methods, finite volume method

Bibliography:
1. Chernozhukov N.I. Tekhnologiya pererabotki nefti i gaza. Ch. 3. Ochistka i razdelenie neftyanogo syr’ya, proizvodstvo tovarnykh nefteproduktov. Pod red. A.A. Gureeva i B.I. Bondarenko. 6-e izd., per. i dop. M.: Khimiya, 1978.
2. Novoe v tekhnologii deparafinizatsii i obezmaslivaniya/A.V. Vishnevskiy, V.P. Kostyuchenko, A.G. Vikhman i dr. Khimiya i tekhnologiya topliv i masel, 2007, no. 2, pp. 8–11.
3.
Vishnevskiy A.V., Vikhman A.G., Bychkov D.Yu. Novye tipy kristallizatorov dlya ustanovok deparafinizatsii neftyanykh masel/Khimicheskaya tekhnika (Chemical Engineering), 2009, no. 4, pp. 21–23.
4.
Opyt ekspluatatsii diskovogo kristallizatora.A.V. Vishnevskiy, A.G. Vikhman, S.I. Nikolaev i dr. Khimiya i tekhnologiya topliv i masel, 2011, no. 5, pp. 13–16.
5.
Bol’shaya sovetskaya entsiklopediya (1969–1978). Konvektivnyy teploobmen. V.A. Arutyunov. URL: http://www.slovari.yandex.ru/~knigi/BSE/Konvektivnyy%20teploobmen/ (data obrashcheniya: 18.09.2012).
6. Strenk F. Peremeshivanie i apparaty s meshalkami: Per s pol’sk. Pod red. I.A. Shuplyakina. L.: Khimiya, 1975.
7. Issledovanie sopryazhennoy zadachi teploobmena v kamernoy nagrevatel’noy pechi: Metodicheskoe posobie k laboratornoy rabote no 3. Ivanovskiy gosudarstvennyy energeticheskiy universitet im. V.I. Lenina, kafedra energetiki teplotekhnologiy i gazosnabzheniya, 2009.
8. Goncharov M., Dvornikov V. Modelirovanie teplovykh rezhimov raboty apparatury silovoy elektroniki v srede SolidWorks Flow Simulation. Silovaya еlektronika, 2010, no. 2, pp. 98–100.
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Alyamovskiy A.A. Solidworks Simulation. Kak reshat’ prakticheskie zadachi. — SPb.: BKhV-Peterburg, 2012.

The study of nonlinear waves propagation in dispersed hydrocarbon medium
Design, manufacturing and operation of oil and gas sector equipment and facilities

Authors: Alexander F. MAKSIMENKO was born 1954. He graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1976 specializing in “Applied Mathematics”. He is Doctor of Technical Sciences, Professor of the Department of Theoretical Mechanics at Gubkin Russian State University of Oil and Gas. He is author of more than 75 scientific works, including 3 monographs. E-mail: maf@gubkin.ru

Abstract: An equilibrium model describing the propagation of the shock wave through the reacting condensed hydrocarbon medium is constructed. To determine the equilibrium parameters of the condensed hydrocarbon mixture the system of nonlinear equations is numerically solved, includig the thermal equation of state and the generalized law of mass action. The studies carried out using the proposed model are consistent with experimental data. The model allows to assess the degree of conversion of condensed dispersed hydrocarbon compounds during the shock wave at first approximation. It is necessary to know the functions of the standard affinity reactions in this matter, and its coefficient of thermal expansion. A more accurate and detailed analysis of the propagation of the shock wave through the condensed hydrocarbon compounds requires determining their thermal equation of state, as well as building a more correct mathematical model based on the principles of non-equilibrium thermodynamics.

Index UDK: 538.95, 544.272, 519.6

Keywords: condensed matter, equilibrium conversion, generalized law of mass action, function of standard affinity, thermal equation of state, shock wave, Mach number

Bibliography:
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2. Mekhanika reagiruyushchikh sred i ee prilozheniya. Sbornik nauchnykh trudov. AN SSSR SO ITPM. Novosibirsk: Nauka, 1989, 280 р.
3. Nigmatulin R.I. Osnovy mekhaniki geterogennykh sred. M.: Nauka, 1978, 336 р.
4. Prigozhin I., Defey R. Khimicheskaya termodinamika: Per. s angl. Novosibirsk: Nauka, 1966, 509 р.
5. Sou Shao Le. Gidrodinamika mnogofaznykh sistem: Per. s angl. M.: Mir, 1971, 367 р.
6. Fizika vzryva. F.A. Baum, L.P. Orlenko, K.P. Stanyukovich i dr. M.: Nauka, 1975, 704 р.
7. Oran Elaine S., Boris Jay P. New directions in computing reacting flows. Comput. and Struct, 1988. V. 30, nо. 1–2, рр. 69–77.

The structure of information management system for engineering data during the operational phase of oil and gas facilities
Automation, modeling and energy supply in oil and gas sector

Authors: Vladimir P. BEZKOROVAINY graduated from Donetsk State University in 1971, specializing in radiophysics. He is Doctor of Technical Sciences, Professor of Gubkin Russian State University of Oil and Gas. He is author of 110 scientific works, a specialist in the field of automation and design of gas transmission systems, as well as project management of gas industry. E-mail: vpbp@mail.ru
Alexander V. SEMENOV graduated from the Stavropol State University in 2009 with a degree in Applied Mathematics. He is graduate student of the Department of Computer-Aided Design of Facilities of Oil and Gas Industry at Gubkin Russian State University of Oil and Gas. He is Head of the Department of Implementation and Maintenance of CAD at NEOLANT Service. E-mail: fess-st@mail.ru

Abstract: The problem of designing information systems for oil and gas industry facilities is considered. The concept based on the principle of modular and object-oriented approach is proposed. The paper focuses on the architecture and the functional features of the engineering data system. The proposed architecture allows to plan and implement flexible, scalable systems of engineering data management of various types of oil and gas facilities. The use of innovative approaches in the development of information systems for a given subject area can reduce risks and increase technological efficiency and safety of operation.

Index UDK: 681.5.004.9

Keywords: information systems, operations, engineering data management, information systems architecture, an information hub

Bibliography:
1. Drozdov S.V., Bezkorovainy V.P. Engineering of standard unified informational space of oil and gas projects realization. Automation, telemechanization and Communication in oil industry, 2012, no. 8, pp. 15–22.
2.
Semenov A.V. Opyt razrabotki informacionnoj sistemy upravlenija diagnosticheskoj informaciej dlja kompressornyh stancij. Sfera Neftegaz, 2012, no. 4, pp. 144–147.
3.
Tihonovskij V.L., Chujko D.V., Bunto P.A. Tehnologija avtomatizirovannoj identifikacii, ili kak povysit’ jeffektivnost’ jekspluatacii i obsluzhivanija gazoraspredelitel’nyh system. GAZinform, 2010, no. 1, pp. 58–61.

«Mentor – young professional» relations in manufacturing organizations
Economics and management in fuel and energy complex industries

Authors: Irina Yu. EREMINA graduated from Gubkin Russian State University of Oil and Gas in 1997. She is Professor of the Department of Labour and Human Resources Management at Gubkin Russian State University of Oil and Gas, author of 130 scientific works in the field of management, labor and human resources management and expanded reproduction of human resources. E-mail: irinargung@mail.ru
Fatima A. JIOEVA graduated from Rostov State University of Tourism and Service in 2011. She is a postgraduate student of the Department of Labour and Human Resources Management of Gubkin Russian State University of Oil and Gas. She is author of two scientific papers in the field of personnel training. E-mail: trudyrgung@gubkin.ru

Abstract: The work is devoted to the study of the specific role and relationship of the young specialist with the mentor in manufacturing organizations and the definition of the mentor’s functions in the «mentor – young professional» system. The work is focused on the need to identify the particular nature of the relationship in the «mentor – young professional» system in a manufacturing organization. In the current situation when the systems of stable job training is destroyed or under restructuring, new professions emerge, certain professions loose or acquire popularity, mentorship is one of the factors of productive resources and professional development.

Index UDK: 331.1

Keywords: «mentor – young professional», mentorship, teacher and student, mentor-activist, mentor-thinker, mentor-teacher, mentor-theorist, mentor-pragmatist, adaptation of staff, young professional

Bibliography:
1. Aref’ev S.L. Izuchenie processa professional’noj adaptacii psihologa v promyshlennosti/: Avtoref. Dis. kand. psihol. nauk. M.: MGU, 2008, 25 р.
2. Gareth L. Menedzher-nastavnik: Per. s angl. Dnepropetrovsk: Balans-Klub, 2010, 220 p.
3. Georgieva I.A. Social’no-psihologicheskie faktory adaptacii lichnosti v kollektive: Avtoref. Dis. kand. psihol. nauk. M.: MGU, 2006, 24 р.
4. Gerchikova I.N. Menedzhment: Moscow, 2007, 499 р.
5. Davydova T.Ju., Shelobaev S.I., Arsen’ev Ju.N. Upravlenie personalom: мodeli upravlenija. Moscow, 2010, 384 р.
6. Dzhej Ros, Templar Richard. Encyclopedia of the manager. Algorithms of effective work: the 3rd prod. M: Alpina Business Buks, 2006, 412 р.
7. Durakova I.B. Upravlenie personalom. Moscow, 2008, 470 р.
8. Djatlov V.A., Kibanov A.Ja., Pihalo V.T. Upravlenie personalom. Moscow, 2008, 259 р.
9. Zhuravlev P.V., Kartashov S.A. Tehnologija upravlenija personalom. Nastol’naja kniga menedzhera. Мoscow, 2010, 370 р.
10. Latukha M.O. Upravlenie adaptaciej personala kak faktor konkurentosposobnosti organizacii: Dissertacija na soiskanie uchenoj stepeni kandidata jekonomicheskih nauk. Cankt-Peterburgskij Gosudarstvennyj Universitet. S-Petersburg, 2003, 155 р.
11. Marenkov H.L., Kosarenko N.N. Upravlenie personalom organizacii. Мoscow, 2008, 384 р.
12. Menedzhment. Praktikum: I.T. Ivanova. Moscow, 2006, 191 р.
13. Shekshnja S.V. Upravlenie personalom sovremennoj organizacii. Moscow, 2010, 300 р.
14. Shkatulla V.I. Nastol’naja kniga menedzhera po kadram. Moscow, 2008, 350 р.
15. Adaptacija personala v torgovyh kompanijah. N. Abakumova, E. Zhuravleva. www.hrm.ru.

Evaluation of synergistic effects of investment projects in oil and gas company
Economics and management in fuel and energy complex industries

Authors: Avedik S. SARKISOV was born in 1967, he graduated from the S. Ordzhonikidze Moscow Aviation Institute in 1990 specializing in “Aircraft Equipment System”. He is Professor of the Department of Financial Management Gubkin Russian State University of Oil and Gas. He has published over 87 scientific papers, including 8 monographs, 8 textbooks. . E-mail: trudyrgung@gubkin.ru
Vladislav V. GUZ is a postgraduate student of the Department of Financial Management Gubkin Russian State University of Oil and Gas. E-mail: trudyrgung@gubkin.ru

Abstract: The paper proposes an approach to describing and assessing the value of synergy effects of investment projects within the same oil and gas company. The approach is based on the idea of the investment project as the core of the production and supply-and-marketing shell, with functions of individual projects incorporates within it. The main types of interaction occurring between investment projects when projects shells fuse are classified. The presented example shows that the application of the proposed approach increases the efficiency of the portfolio of investment projects.

Index UDK: 336.717

Keywords: synergy, resources, Wilson's model, investment policy, oil and gas company

Bibliography:
1. Sarkisov A.S. Tehnologija strategicheskogo upravlenija. Pechatnyj Dvor, 2001, 312 р.
2. Sarkisov A.S., Solov’ev A.S., Guz’ V.V. Formirovanie strategii stroitel’stva jelektrostancij sobstvennyh nuzhd na predprijatijah neftegazovogo kompleksa. Trudy RGU nefti i gaza im.I.M. Gubkina, 2011, no. 3 (264), рр. 146–160.
3.
Sarkisov A.S., Solov’ev A.S., Guz’ V.V. Ocenka jeffektivnosti ispol’zovanija jelektrostancij sobstvennyh nuzhd na predprijatijah neftegazovogo kompleksa. Neft’, gaz i biznes, 2011, no. 9. pp. 55–59.
4.
Ryzhikov Ju.I. Teorija ocheredej i upravlenie zapasami. SPb: Piter, 2001, 384 p.