Geology and geologo-prospecting works |
R.S. Khisamov (Tatneft OAO, RF, Almetyevsk), V.G. Bazarevskaya, A.V. Novikova, Z.R. Ibragimova, A.M. Timirova, O.V. Presnyakova (TatNIPIneft, RF, Bugulma) Increasing TATNEFT’s hydrocarbon resource potential DOI: Key words: resource potential, reserves, resources, oil production, reserves increment, enhanced oil recovery, heavy oil, tight reservoir, domanikits, economic benefits. This paper analyzes TATNEFT’s current hydrocarbon resource potential in the Republic of Tatarstan and possible ways of reserves and resources increment. Domanikits (shale oil) and hard-to-recover reserves, including heavy oil and tight oil, are considered to be additional hydrocarbon sources. This paper presents estimated economic benefits from application of reduced mineral extraction tax (MET) rate by the example of tight reservoirs and domanikits.References
1. Zaydel'son M.I. et al., Formirovanie i neftegazonosnost' domanikoidnykh
formatsiy (Formation and oil and gas potential of Domanis rocks), Moscow:
Nauka Publ., 1990, 79 p.
2. Khisamov R.S. et al., Geologiya karbonatnykh slozhnopostroennykh kollektorov devona i karbona Tatarstana (Geology of carbonate complex reservoirs
of Devonian and Carboniferous of Tatarstan), Kazan': FEN Publ., 2010, 283 p.
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R.S. Khisamov (Tatneft OAO, RF, Almetyevsk), V.G. Bazarevskaya, Ph.D., O.V. Presnyakova (TatNIPIneft, RF, Bugulma), V.A. Ekimenko (TNG-Group, RF, Bugulma) Characteristics of Tatneft prospects and prospective resources DOI: Key words: prospects, plays, resources, incremental reserves, exploratory drilling, seismic survey, poor-quality reservoirs. The paper considers features and characteristics of Tatneft prospects and their prospective resources. Categorization of prospects and plays in terms of area extent and vertical closure has been made. Basic sources of incremental resources have been determined: investigations of plays and territories where seismic survey has never been carried out as well as study of poor-quality reservoirs. Cost efficiency analysis of prospecting and development has been performed.Login or register before ordering |
R.S. Khisamov (Tatneft OAO, RF, Almetyevsk), V.G. Bazarevskaya (TatNIPIneft, RF, Bugulma), I.O. Burkhanova, N.A. Skibitskaya, V.A. Kuzmin (Oil and Gas Research Institute of RAS, RF, Moscow), B.A. Nikulin (Lomonosov Moscow State University, RF, Moscow) Systematic approach to studying of carbonate source rock of petroleum of gas-and-oil field in the Orenburg Region DOI: Key words: petroleum source rock, petrophysical survey, geochemical survey, geophysical survey, electron microscopic study. Complex analysis of core samples from carbonate petroleum source rock of the Artinskian stage of Dimitrovskoye gas-and-oil field in the Orenburg Region enabled to determine the lithology of rocks under study, the structure of reservoir storage volume, and reveal the patterns of organic matter distribution. As a result of integrated petrophysical, geochemical, geophysical and electron microscopic studies, relationships between organic matter content and concentration of normally occurring radioactive elements were identified. Recommendations on standard and extended well logging suite are given. References
1. Dmitrievskiy A.N. et al., Collected papers “Fundamental'nye problemy geologii
i geokhimii nefti i gaza i razvitiya neftegazovogo kompleksa Rossii” (Fundamental
problems of oil and gas geology and geochemistry and development
of Russian oil and gas complex): edited by Dmitrievskiy A.N., Kontorovich
A.E., Moscow: GEOS Publ., 2007, 391 p.
2. Skibitskaya N.A. et al., Proceedings of International Conference
“Petrofizika: sovremennoe sostoyanie, problemy, perspektivy” (Petrophysics:
current status, problems and prospects), Moscow, 2010, pp. 104–107.
3.Metodicheskie rekomendatsii po opredeleniyu podschetnykh parametrov
zalezhey nefti i gaza po materialam geofizicheskikh issledovaniy skvazhin s
privlecheniem rezul'tatov analizov kerna, oprobovaniy i ispytaniy produktivnykh
plastov (Guidelines to determine the volumetric parameters oil and
gas deposits based on well logging with the involvement of the core analysis
results, sampling and testing of productive formations): edited by
Vendel'shteyn B.Yu., Kozyar V.F., Yatsenko G.G., Kalinin: Publ. of Soyuzpromgeofizika, 1990, 261 p.
4. Panteleev A.S., Geologicheskoe stroenie i neftegazonosnost' Orenburgskoy
oblasti (Geological structure and hydrocarbon potential of the Orenburg region),
Orenburg: Orenburgskoe knizhnoe izdatel'stvo Publ., 1997, 265 p.
5. Smyslov A.A., Uran i toriy v zemnoy kore (Uranium and thorium in the Earth's
crust), Leningrad: Nedra Publ., 1974, 231 p.
6. Dobrynin V.M., Vendel'shteyn B.Yu., Kozhevnikov D.A., Petrofizika (fizika
gornykh porod) (Petrophysics (physics of rocks)), Moscow: Neft' i gaz Publ.,
2004, 368 p.
7. Arbuzov S.I., Volostnov A.V., Izvestiya Tomskogo politekhnicheskogo universiteta – Bulletin of the Tomsk Polytechnic University, 2003, V. 306, no. 6, pp. 12–17.
8. Ermolaeva V.N., Chukanov N.V., Pekov I.V., Proceedings of All-Russian seminar “Geokhimiya magmaticheskikh porod” (Geochemistry of magmatic rocks), Moscow, 2005, pp. 53–55.
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R.S. Khisamov (Tatneft OAO, RF, Almetyevsk), A.F. Yartiev, V.G. Bazarevskaya (TatNIPIneft, RF, Bugulma) Application of tax incentives mechanisms in geological prospecting activities to increase Tatneft OAO resource base DOI: Key words: oil production, addition to reserves, geological prospecting and exploration, oil and gas production tax, tax incentive mechanism. The paper considers the issues of alternative approach to geological prospecting activities financing and presents official and analytical statistics data referred to the matter. Much attention is paid to the effectiveness of geological prospecting in OAO TATNEFT in the middle-term. References
1. URL: www.mineral.ru/News/56856.html.
2. Yartiev A.F., Bazarevskaya V.G., Geologiya nefti i gaza – The journal Oil and
Gas Geology, 2007, no. 6, pp. 56-59.
3. URL: www.oilcapital.ru/industry/243829.html.
4. URL: deloros.ru/FILEB/Presentation_DR_Levitsky.ppt.
5.URL: www.rsppenergy.ru/netcat_files/userfiles/NNK.Vygon_Prezentatsiya_Skolkovo.pdf.
6. URL: www.angi.ru/print.shtml?oid=2809471. Login or register before ordering |
Working out and operation of oil deposits |
N.U. Maganov, N.G. Ibragimov, R.S. Khisamov (Tatneft OAO, RF, Almetyevsk) R.R. Ibatullin, A.T. Zaripov (TatNIPIneft, RF, Bugulma) Problems of Tatneft heavy oil project development DOI: Key words: heavy oil, research, pilot works, reservoir performance, prospects, effective development. Tatneft’s heavy oil project launched in 2006, is underway. Development of heavy oil reserves is one of the strategic directions of the Company. New heavy oil accumulations will soon be brought into development. Research projects based on the hands-on experience of the Ashalchinskoye heavy oil field development are in progress.Login or register before ordering |
R.S. Khisamov (Tatneft OAO, RF, Almetyevsk) Analysis of efficiency of steam-gravity recovery technology for development of heavy oil reserves DOI: Key words: bituminous oil deposits, Ashalchinskoye field, horizontal wells, temperature, thermal recovery method, oil recovery factor. In 2006, Tatneft OAO initiated application of the steam-assisted gravity drainage technology to develop the reserves of the Ashalchinskoye shallow heavy oil field. The paper presents analysis of pilot production. Field performance testifies to success of the heavy oil development project and practical feasibility of 70% of ultimate oil recovery.References
1. Patent no. 2340768 RF, Method of development of heavy oil or bitumen deposit with implementation of two head horizontal wells, Inventors: Takhautdinov
Sh.F., Ibragimov N.G., Khisamov R.S., Ibatullin R.R., Amerkhanov M.I.
2. Patent no. 2287677 RF, Method for extracting oil-bitumen deposit, Inventors:
Khisamov R.S., Abdulmazitov R.G., Ibatullin R.R., Valovskiy V.M., Zaripov A.T.
3. Patent no. 2273729 RF, Method for highly-viscous oil or bitumen deposit development, Inventor: Khisamov R.S.
4. Patent no. 2287679 RF, Method for extracting deposit of high viscosity oil or
bitumen, Inventors: Khisamov R.S., Fatkullin R.Kh., Yusupov I.G., Zagidullin R.G.
5. Khisamov R.S., Georesursy – International Journal of Sciences “Georesources”,
2007, no. 3, pp. 8–10.
6. Khisamov R.S., Abdulmazitov R.G., Zaripov A.T., Ibatullina S.I., Neftyanoe
khozyaystvo – Oil Industry, 2007, no. 7, pp. 43–45.
7. Khisamov R.S., Frolov A.I., Ibatullin R.R. et al., Neftyanoe khozyaystvo – Oil Industry, 2008, no. 7, pp. 47–49.
8. Takhautdinov Sh.F., Ibragimov N.G., Khisamov R.S. et al., Sozdanie i
promyshlennoe vnedrenie kompleksa tekhnologiy razrabotki mestorozhdeniy
sverkhvyazkoy nefti (Creation and industrial implementation of a complex
technology of heavy oil development), Kazan': FEN Publ., 2011, 189 p.
9. Khisamov R.S., Gatiyatullin N.S., Shargorodskiy I.E., Voytovich E.D., Geologiya i osvoenie zalezhey prirodnykh bitumov. Respubliki Tatarstan (Geology
and development of natural bitumen deposits of Tatarstan): edited by
Khisamov R.S., Kazan': FEN Publ., 2007, 295 p.
10. Lipaev A.A., Razrabotka mestorozhdeniy tyazhelykh neftey i prirodnykh bitumov (Development of heavy oil and natural bitumen deposits), Moscow –
Izhevsk: Institut komp'yuternykh issledovaniy, 2013. – 484 s.
11. Patent no. 2274742 RF, Method for high-viscous oil or bitumen field development, Inventor: Khisamov R.S.
12. Khisamov R.S., Nasybullin A.V., Modelirovanie razrabotki neftyanykh
mestorozhdeniy (Simulation of oil fields development), Moscow: Publ. of VNIIOENG,
2008, 256 p.
13. Khisamov R.S., Musin M.M., Musin K.M. et al., Obobshchenie rezul'tatov
laboratornykh i opytno-promyshlennykh rabot po izvlecheniyu sverkhvyazkoy
nefti iz plasta (Generalization of the results of laboratory and pilot projects for
extraction of heavy oil from the reservoir), Kazan': FEN Publ., 2013, 232 p.
14. Khisamov R.S., Gatiyatullin N.S., Makarevich V.N., Bogoslavskiy S.A., Osobennosti osvoeniya mestorozhdeniy tyazhelykh vysokovyazkikh neftey i
prirodnykh bitumov Vostochno-Evropeyskoy platformy (Features of development
of heavy heavy oil and natural bitumen deposits of East European Platform),
St. Petersburg: VNIGRI, 2009, 212 p.
15. Khisamov R.S., Effektivnost' vyrabotki trudnoizvlekaemykh zapasov nefti
(Efficiency of stranded oil development), Kazan': FEN Publ., 2013, 310 p.
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D.T. Kiyamova, I.N. Khakimzianov, D.A. Razzhivin, (TatNIPIneft, RF, Bugulma) On effect of grid block size on forecast performance of reservoirs developed by vertical and horizontal wells DOI: Key words: grid block, horizontal well, basin and reservoir modeling, relative error, cumulative oil production. The paper analyzes the effect of grid block sizes on performance of reservoir developed by vertical and horizontal wells. Based on the analysis of the forecast reservoir performance, dynamic plots of cumulative oil production, oil production rate and water cut versus grid block size have been obtained. Concrete grid block sizes have been empirically found that do not lead to any noticeable change in reservoir performance when the grid is downscaled.References
1. Kanevskaya R.D., Matematicheskoe modelirovanie gidrodinamicheskikh
protsessov razrabotki mestorozhdeniy uglevodorodov (Mathematical
modeling of hydrodynamic processes of exploitation of hydrocarbons),
Izhevsk: Institut komp'yuternykh issledovaniy, 2002, 140 p.
2. Zakrevskiy K.E., Maysyuk D.M., Syrtlanov V.R., Otsenka kachestva 3D
modeley (Assessment of the quality of 3D models), Moscow, 2008, 272 p.
3. Aziz Kh., Settari A., Petroleum reservoir simulation, Applied Science Publishers, 1979, 476 p.
4. Khisamov R.S., Ibatullin R.R., Khakimzyanov I.N., Kiyamova D.T., Georesursy
– Georesources, 2013, no. 4, pp. 2–9.
5. Fedorov K.M., Dreyman V.A., Vestnik Tyumenskogo gosudarstvennogo
universiteta – Tyumen State University Herald, 2009, no. 6, pp. 12-18.
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N.G. Ibragimov (Tatneft OAO, RF, Almetyevsk), V.G. Salimov, R.R. Ibatullin, A.V. Nasybullin, O.V. Salimov (TatNIPIneft, RF, Bugulma) Geomechanical Conditions of Successful Acid Fracturing Applications DOI: Key words: acid fracturing, geomechanics, well productivity. Analysis of conductivity changes of acid-etched fractures depending on influential factors has been conducted. The following conclusions have been made. Efficiency of acid fracturing increases with decrease of producing reservoir depth. Appropriate candidate formations for acid fracturing are those characterized by high Brinnel hardness and those having low fracturing pressures. Reservoir pressure drop is not allowed while operating the wells with acid-etched fractures. Instead, increase of reservoir pressure is advisable. If the stress resulting in loss of conductivity in acid-etched fractures lies within the actual range of compressional stresses (from 0 to 30 MPa in Tatarstan conditions), so the optimum value of reservoir pressure drawdown will exist ensuring maximum production rate and well productivity. Combination of horizontal wells and multiple transverse acid-etched fractures is a viable solution for reduction of compressional stress.References
1. Lysenko V.D., Neftepromyslovoe delo, 2006, no. 12, pp. 4–7.
2. Medvedskiy R.I. et al., Neftepromyslovoe delo, 2007, no. 11, pp. 23–27.
3. Ibatullin R.R., Nasybullin A.V., Salimov O.V., Collected papers “Teoriya i praktika sovremennykh metodov intensifikatsii dobychi nefti i uvelicheniya nefteotdachi plastov” (Theory and practice of modern methods of oil production
intensification and EOR), Proceedings of International scientific-practical
conference, Republic of Belarus, Retchitsa, 23-25 May 2012, Gomel': Publ. of
Polespechat', 2012, pp. 471–478.
4. Ibatullin R.R., Salimov V.G., Nasybullin A.V., Salimov O.V., Neftyanoe
khozyaystvo – Oil Industry, 2012, no. 9, pp. 73–77.
5. Mordvinov V.A., Poplygin V.V., Erofeev A.A., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 10, pp. 102–105.
6. Nierode D.E., Kruk K.F., An evaluation of acid fluid loss additives, retarded
acids, and acidized fracture conductivity, Paper SPE 4549, 1973.
7. Gong M. et al., A new model of acid fracture conductivity based on deformation
of surface asperities, Paper SPE 39431, 1998.
8. Abass H.H., et al., Acid fracturing or proppant fracturing in carbonate formation?
A rock mechanic’s view, Paper SPE 102590, 2006.
9. Diyashev R.N., Kosterin A.V., Skvortsov E.V., Diyashev I.R., Neftyanoe
khozyaystvo – Oil Industry, 1993, no. 11, pp. 23–26.
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Technics and technology of oil recovery |
R.A. Tabaschnikov (Tatneft-RemServis OOO, RF, Almrtyevsk), I.Kh. Makhmutov, R.R. Kadyrov, R.Z. Ziyatdinov, A.S. Zhirkeev (TatNIPIneft, RF, Bugulma) The technology of channeling control based on production casing cutting in the behind-the-casing flow interval DOI: Key words: well, formation, behind-the-casing flow, production casing, cement slurry. Channeling control technologies conventionally applied by Tatneft are characterized by rather low effectiveness. A new technology has been developed that allows replacing the cement sheath in the behind-the-casing flow interval rather than sealing it. The casing in the leaking interval is cut, the cement sheath and the mud cake are removed, and the interval is reliably plugged. The technology application is limited by production targets above the water producing intervals. To date, this technology has been applied in more than 60 Tatneft’s wells, and it will still be used in more wells.References
1. Kadyrov R.R., Remontno-izolyatsionnye raboty v skvazhinakh s ispol'zovaniem
polimernykh materialov (Repair and insulation work in wells using
polymer materials), Kazan': Fen Publ., 2007, 423 p.
2. Kleshchenko I.I., Grigor'ev A.V., Telkov A.P., Izolyatsionnye raboty pri zakanchivanii i ekspluatatsii neftyanykh skvazhin (Insulation work at completion
and operation of oil wells), Moscow: Nedra Publ., 1998, 266 p.
3. Patent no. 2420657 RF, MPK E 21 V 43/32, E 21 V 33/134, Procedure for development of water-flooded oil deposits, Inventors: Fayzullin I.N., Ramazanov
R.G., Gazizov I.G., Ziyatdinov R.Z., Yakhina O.A., Suleymanov F.B.
4. Tabashnikov R.A., Kadyrov R.R., Zhirkeev A.S., Patlay A.V., Zagrutdinov B.N., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 7, pp. 36–37.
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N.G. Ibragimov, F.Z. Ismagilov (Tatneft OAO, RF, Almetyevsk), M.Kh. Musabirov, E.M. Abusalimov (TatNIPIneft, RF, Bugulma) Analysis of well stimulation pilot projects in Tatneft OAO DOI: Key words: well stimulation, well treatment, carbonate reservoir, acid compositions, efficiency. This paper presents analytical results of well stimulation pilot projects in complex porous-fractured carbonate reservoirs. The first results prove feasibility and high potential of new and modified well workover techniques. Basic performance criteria, technological risks, boundary conditions, and effective applications have been identified for well stimulation and treatment techniques. This paper also reviews some further objectives for improving well stimulation jobs efficiency. Login or register before ordering |
N.G. Ibragimov (Tatneft OAO, RF, Almetyevsk), M.Kh. Musabirov, A.F. Yartiev (TatNIPIneft, RF, Bugulma) Effectiveness of well stimulation technologies package developed by Tatneft OAO DOI: Key words: technologies package, acid treatment, carbonate deposits, well stimulation, oil production enhancement, incremental oil production, effectiveness. Analysis of Russian and world best practices in the area of acid treatments of dual-permeability carbonate reservoirs was used as a basis for development of a well stimulation and formation treatment concept for dual-permeability carbonate reservoirs. The concept is underpinned by high-performance well stimulation and formation treatment technologies developed by the authors and successfully tested in Tatarstan oil fields. The technologies package involves methods providing for sequential treatment of the near-wellbore region and remote formation zones. References
1. Ibragimov N.G., Povyshenie effektivnosti dobychi nefti na mestorozhdeniyakh
Tatarstana (Improving the efficiency of oil production in the fields of
Tatarstan), Moscow: Nedra-Biznestsentr Publ., 2005, 316 p.
2. Musabirov M.Kh., Sokhranenie i uvelichenie produktivnosti neftyanykh plastov
(Preserving and increasing the productivity of oil reservoirs), Kazan': FEN
Publ., 2007, 424 p.
3. Orlov G.A., Musabirov M.Kh., Collected papers “Aktual'nye problemy geologii i razrabotki neftyanykh mestorozhdeniy Tatarstana” (Actual problems
of geology and development of Tatarstan oil fields), Moscow: Zakon i
poryadok Publ., 2006, pp. 268-272.
4. Patent no. 2082880 RF, MPK E 21 V 43/27, Method of acid treatment of oil
formation, Inventors: Orlov G.A., Muslimov R.Kh., Yusupov I.G.,
MusabirovM.Kh.
5. Patent no. 2039216 RF, MPK E 21 V 43/00, Borehole pumping in method, Inventors: Orlov G.A., Musabirov M.Kh., Muslimov R.Kh.
6. Yartiev A.F., Ekonomicheskaya otsenka proektnykh resheniy innovatsionnoinvestitsionnykh
vlozheniy dlya neftyanoy promyshlennosti (Economic evaluation
of design decisions of innovation and investments for the oil industry),
Moscow: Publ. of OAO “VNIIOENG”, 2011, 232 p. Login or register before ordering |
The oil-field equipment |
N.G. Ibragimov, R.G. Zabbarov, I.D. Fatkullin (Tatneft OAO, RF, Almetyevsk), K.V. Valovsky (TatNINIneft, RF, Bugulma) Selection of downhole equipment to operate wells with more than 30 m3 daily fluid production–Tatneft experience DOI: Key words: OPEX reduction, saving of energy costs on well production lifting, reduction of well intervention jobs, selection of optimal well operation method, equipment application range, sucker-rod pumping units, electrical submersible centrifugal pumping units, intermittent well operation, long-stroke pumping mode, chain drives Based on Tatneft many years' experience of commercial application of sucker-rod and electrical submersible centrifugal pumping units, a trade-off study of statistically significant samples of wells has been performed. The authors endeavored to find a trade-off between ESP units allowing for intermittent operation and long-stroke sucker-rod pumping units with chain drives for oil wells producing more than 30 m3 of fluid per day. The paper presents recommendations on optimal application of equipment for Tatneft wells.References
1. Mishchenko I.T., Skvazhinnaya dobycha nefti (Oil Production), Moscow:
Neft' i gaz Publ., 2003, 816 p.
2. Patent no. 2283969 RF, MPK7 F 04 B 47/02, Sucker-rod pump drive, Inventors: Takhautdinov Sh.F., Ibragimov N.G., Fadeev V.G., Akhmetvaliev R.N., Isupov S.I., Slesarev A.D., Reutov V.B., Valovskiy V.M., Shamsutdinov I.G., Valovskiy K.V., Fedoseenko N.V.
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Transport and oil preparation |
N.G. Ibragimov (Tatneft OAO, RF, Almetyevsk), D.D. Shipilov, Ph.D., A.Z. Mingazov, T.V. Ibryaeva, A.N. Shatalov (TatNIPIneft, RF, Bugulma) Application of hydrogen sulfide scavengers for oil treating at crude oil treatment facilities of Tatneft OAO DOI: Key words: chemical agent, crude oil, hydrogen sulfide, coefficient, flow rate, efficiency, water. The paper presents the results of laboratory and pilot testing of hydrogen sulfide scavenger treatments of crude oil implemented at treatment facilities operated by two oil-and-gas production departments of Tatneft, namely at the “Andreevka” sour oil treatment facility of NGDU Nurlatneft and crude oil treatment facility of NGDU Bavlyneft. The products REATON-21-2 and Fesulfon-SNPKH-1200 M exhibited maximum efficiency as compared to other chemicals under consideration. According to field test results, flow rate coefficients for the above chemicals amounted to 2.0 and 2.2 grams per gram of hydrogen sulfide at the “Andreevka” sour oil treatment facility of NGDU Nurlatneft; and 3.1 and 3.8 g/g at the crude oil treatment facility of NGDU Bavlyneft.References
1. Sakhabutdinov R.Z., Shatalov A.N., Garifullin R.M. et al., Neftyanoe
khozyaystvo – Oil Industry, 2008, no. 7, pp. 82-85.
2. Shatalov A.N., Neftyanoe khozyaystvo – Oil Industry, 2013, no. 2, pp. 90-94.
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Ecological and industrial safety |
O.P. Yermolaev, K.A. Maltsev, V.A. Belonogov (Kazan (Volga Region) federal university, RF, Kazan), O.E. Mishanina, E.V. Khisamutdinova (TatNIPIneft, RF, Bugulma) Creation of geographic information systems for environmental management and protection DOI: Key words: geographic information system (GIS), databases, ecology, oil production company, mapping, generalization level. Oil production is a complex process having multiple impacts on the environment. A number of issues related to evaluation and management of such impacts may be tackled using modern information technologies such as creation of dedicated geographic information systems for environmental management and protection. Applicability of such systems depends on requirements to the level of incoming data generalization. The article discusses the approaches to creation of ecological and geographic information systems of regional and local generalization level applied in Tatneft OAO.References
1. Smieth T.R., Menon S., Star J.L., Estes J.E., Reguirements and principles for
the implementation and construction of large-scale geographic information
systems, Inter. J. Geograph. Inform. Systems, 1987, V. 1,
no. 1, pp. 13-31.
2. Ermolaev O.P., Belonogov V.A., Mal'tsev K.A., Uchenye zapiski Kazanskogo
universiteta. Seriya: estestvennye nauki, 2008, V. 150, no. 4,
pp. 114-124.
3. Ermolaev O.P. et al., Geomorfologiya, 2012, no. 2, pp. 50-58.
4. Belonogov V.A., Ermolaev O.P., Yakupov I.I., Inzhenernye izyskaniya,
2009, no. 11, pp. 38-39.
5. Ibragimov N.G., Goreev R.M., Ibatullin R.R. et al., Neftyanoe khozyaystvo
– Oil Industry, 2009, no. 5, pp. 108-111.
6. Ermolaev O.P., Torsuev N.P., Uchenye zapiski Kazanskogo universiteta.
Seriya: estestvennye nauki, 2005, V. 147, pp. 6-17.
7. Maltsev K., Yermolaev O., Mozzerin V., Mapping and spatial analysis of
suspended sediment yields from the Russian Plain, Proceedings of an IAHS
International Commission on Continental Erosion Symposium held at the
Institute of Mountain Hazards and Environment, CAS-Chengdu, China,
11-15 October 2012, IAHS Publication 356, 2012, pp. 251-258.
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F.S. Bilalov, O.R. Badrutdinov, E.A. Barinova, R.S. Tyumenev (Kazan (Volga Region) Federal University, RF, Kazan), P.N. Kubarev (TatNIPIneft, RF, Bugulma), P.N. Sabaev, Z.S. Badrutdinov (Tatneft OAO, RF, Almetyevsk) Assessment of oil treatment facilities impact on radiation environment in adjacent areas DOI: Key words: radiation pollution, oil sludge, stock tanks, statistical analysis. Upstream and downstream activities result in large environmental emissions of natural radionuclides. Specific activity of radionuclides in soil samples from Tatneft assets was analyzed to evaluate oil treatment facilities impact on radiation pollution of the environment. Reliable identification of radio-geochemical anomalies was achieved through landscape-geochemical zoning and detailed analysis using R statistical software. References
1. Ibragimov N.G., Sizov B.A., Zaytsev V.I. et al., Neftyanoe khozyaystvo –
Oil Industry, 2005, no. 3, pp. 12-14.
2. R Development Core Team, R: A language and environment for StatiStical
computing. R Foundation for StatiStical Computing, Austria, Vienna,
ISBN 3-900051-07-0, URL: http://www.R-project.org.
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Power supply |
R.I. Garifullin, I.D. Fatkullin, D.S. Grabovetsky1 (Engineering Centre of Tatneft OAO, RF, Almetyevsk), N.S. Gimadieva (Tatneft OAO, RF, Almetyevsk) Tatneft OAO uses double-rate power tariff to operate intermittent producers DOI: Key words: intermittent producers, power, energy charge. To calculate energy consumption, OAO TATNEFT uses the sixth price tier, which implies that payable energy is instrumentally measured during controlled time periods. The Company operates more than twenty thousand producing wells, including 11.5% of intermittent producers. To decrease power consumption during controlled time periods, it was decided to operate some of these wells during weekend days. This solution will allow savings on power costs. Login or register before ordering |
Economy, management, the legal right |
E.Yu. Belkina, I.Sh. Khasanov (Rosneft Oil Company OJSC, RF, Moscow), A.F. Ismagilov (SamaraNIPIneft LLC, RF, Samara), L.N. Tkhashokova (ST-Audit LLC, RF, Moscow) The approaches to determination of the initial cost of research and development projects DOI: Key words: initial cost, research and development projects, an analog-based method. The authors developed a model to calculate the initial cost of R & d projects with the use of an analog-based method of calculation of the weighted averages of the cost of typical works. The model is intended to determine the initial value of the contract in the placement of orders on execution of R&D projects.References
1. Metodicheskie rekomendatsii po otsenke effektivnosti investitsionnykh
proektov (Guidelines for evaluating the effectiveness of investment projects
) from 21.06.99. – http://www.zakonprost.ru/content/base/7730 либо
http://docs.cntd.ru/document/1200005634
2. Vremennye metodicheskie rekomendatsii po opredeleniyu startovoy
stoimosti nauchno-issledovatel'skikh i opytno-konstruktorskikh rabot pri provedenii konkursnykh torgov na vypolnenie NIOKR (Interim guidelines for
determining the starting price of the research and development work in
competitive bidding to perform R & D) from 30.01.03. – http://www.bestpravo.
ru/rossijskoje/ot-akty/x4p.htm
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I.S. Sivokon (Transenergostroy OOO, RF, Moscow) Analysis of the effectiveness of oil and gas field’s infrastructure safety and maintenance inputs DOI: Key words: infrastructure, risk, prognosis, management, effectiveness. The work represents a simple, standard and public data based analytic algorithm of effectiveness of oil and gas field’s infrastructure safety and maintenance inputs. Upon analysis dynamic prognoses of infrastructure risks, future emergencies and incidents quantity can be made in accordance with various business plans. Besides, suggested analysis can be a mean of strategic and operative business planning and a mean of maintenance (diagnostics, corrosion protection, repair, full repair and renewal) inputs optimization.References
1. Amirov V.R., Sivokon' I.S. Territoriya Neftegaz, 2013, no. 9, pp. 26-31.
2. Amirov V.R., Sivokon' I.S., Territoriya Neftegaz, 2013, no. 10, pp. 64-70.
3. Amirov V.R., Sivokon' I.S., Territoriya Neftegaz, 2013, no. 12, pp. 86-93.
4. Pitersen A., Iger K., Novator, 2006, no. 10, pp.
5. API RP 581, Risk-Based Inspection Technology, Second Edition, STANDARD
published 09/01/2008 by American Petroleum Institute.
6. GOST R ISO/MEK 31010 – 2010, Menedzhment riska. Metody otsenki riska
(Risk management - Risk assessment techniques).
7. GOST R 51901.11-2005, Menedzhment riska. Issledovanie opasnosti i
rabotosposobnosti. Prikladnoe rukovodstvo (Hazard and operability studies
(HAZOP studies) - Application guide).
8. GOST 27.310-95, Mezhgosudarstvennyy standart. Nadezhnost' v tekhnike.
Analiz vidov, posledstviy i kritichnosti otkazov. Osnovnye polozheniya (Dependability in technics. Failure mode, effects and criticality analisys. Basic
principles).
9. Amirov V.R., Sivokon' I.S., Territoriya Neftegaz, 2013, no. 11, pp. 65-69.
10. Amirov V.R., Sivokon' I.S., Kichenko S.B., Novator, 2011, March.
11. Sivokon' I.S., Novator, 2010, January-February.
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Geology and geologo-prospecting works |
A.I. Kobrunov, V.E. Kuleshov, A.S. Mogutov, A.N. Dorogobed (Ukhta State Technical University, RF Ukhta) Prediction of hydrocarbon deposit physical and geological commercial parameters under conditions of data uncertainty DOI: Key words: indefiniteness, modeling, dependent, data The article covers the issues of uncertainties that occur in the forecasting of commercial physical and geological parameters processes. It describes basic steps of the indistinct petrophysical compositions method developed by the authors. According to an exemplary hydrocarbon field development, an implementation and application results are shown, including an assessment of the uncertainty of three-dimensional geological and geophysical models.References
1. Mamdani E.H., Application of fuzzy algorithms for control of simple dynamic
plant, Electrical Engineers, Proceedings of the IEE, 1974, no. 121(12),
pp. 1585-1588.
2. Zadeh L.A., Fuzzy sets, Information and Control, 1965, V. 8, no. 3,
pp. 338-353.
3. Zhabreev I.P., Khurgin Ya.I., Geologiya nefti i gaza – The journal Oil and Gas
Geology, 1993, no. 11, pp. 37–40.
4. Eremin N.A., Modelirovanie mestorozhdeniy metodami nechetkoy logiki
(Field modeling using fuzzy logic methods), Moscow: Nauka Publ., 1994,
462 p.
5. Zolotukhin A.B., Proceedings of 5th International Conference “Novye idei v
geologii i geokhimii nefti i gaza” (New ideas in geology and geochemistry of
oil and gas), Part 1, Moscow: Publ. of MSU, 2001, pp. 151-153.
6. Kobrunov A.I., Kuleshov V.E., Mogutov A.S., Khudozhilova A.N., Vestnik Instituta geologii Komi nauchnogo tsentra UrO RAN, 2011, no. 9, pp. 18-23.
7. Mogutov A.S., Kobrunov A.I., Kuleshov V.E., Neftegazovaya geologiya.
Teoriya i praktika – Petroleum Geology – Theoretical and Applied Studies,
2012, V. 7, no. 1, pp. 1-11, URL: http://www.ngtp.ru/rub/8/17_2012.pdf.
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N.B. Amelchenko, V.N. Minkaev (BashNIPIneft LLC, RF, Ufa), R.Kh. Masagutov (Bashneft JSOC, RF, Ufa) Potential of hydrocarbon deposits exploration in the interior zone of Belskaya Depression, Pre-Ural Foredeep DOI: Key words: Pre-Ural Foredeep, interior zone, Alataus sediments, reverse and thrust faulting, hydrocarbon potential. The exploration maturity including both seismic and drilling of the interior zone of Belskaya Depression, Pre-Ural Foredeep is extremely low especially in its eastern part which borders on the Ural fold belt. At the same time it has been confirmed that the main structural style within the Paleozoic sedimentary sequence in this area is associated with linear elongated (up to 90 km long) thrust and reverse fault deformations with folded front limbs trending in the same direction as the Ural mountains. Originally similar thrusted structures are proved at Arkhangelskoye and Tabynskoye fields located in the core zone of the Pre-Ural Foredeep with oil reservoirs within the Permian (Artinskian), Middle Carboniferous (Myachkovskian) and the Middle Devonian-Tournaisian carbonates. The high degree of tectonic deformation, numerous oil and gas shows of varying intensity and stratigraphic confinement as well as the presence of the regional cap rock which consists of both siliciclastics and carbonates (Lower Carboniferous Alataus Formation) contribute to the high HC potential of the interior zone of Belskaya Depression for further study and exploration.References
1. Krauze S.N., Chibrikova E.V., Batalov T.N., Alyamkina E.A., Collected papers “Geologicheskoe stroenie i perspektivy neftenosnosti zapadnoy Bashkirii”
(Geological structure and prospects of oil-bearing of Western Bashkiria), Proceedings of Bashkir Branch of the Academy of Sciences of the USSR, Ufa,
1974, pp. 115–127.
2. Sinitsina Z.A., Collected papers “Dokembriy i paleozoy Yuzhnogo Urala”
(Precambrian and Paleozoic of the Southern Urals), Proceedings of Bashkir
Branch of the Academy of Sciences of the USSR, Ufa, 1986, pp. 64–69.
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D.A. Martyushev, K.A. Viatkin (Perm National Research Polytechnic University, RF, Perm) Determination of natural fractures parameters in carbonate reservoir by tracer indicators DOI: Key words: indicator injection, fracture opening, compressibility of the fracture, fractures compressibility, formation pressure conductivity, well interference testing. The article presents the method for determining the parameters of natural fractures using indicators injection into injection wells on the Logovskoye field in Perm Region (T-Fm deposit). The findings were compared with the results of other methodologies of fracturing opening valuation. The error of a results obtained by variety of methods, is not more than 5%, so the accuracy and reliability are relevant.References
1. Cherepanov S.S., Martyushev D.A., Ponomareva I.N., Neftyanoe khozyaystvo
– Oil Industry, 2013, no. 3, pp. 62–65.
2. Martyushev D.A., Chumakov G.N., Neft', Gaz i Biznes, 2013, no. 11,
pp. 46–48.
3. Martyushev D.A., Mordvinov V.A., Neftyanoe khozyaystvo – Oil Industry,
2014, no. 1, pp. 67–69.
4. Dzyubenko A.I., Nikonov A.N., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 4, pp. 56– 63.
5. Cherepanov S.S., Martyushev D.A., Ponomareva I.N., Khizhnyak G.P.,
Neftyanoe khozyaystvo – Oil Industry, 2013, no. 4, pp. 60–61.
6. Erofeev A.A., Ponomareva I.N., Turbakov M.S., Inzhener-neftyanik, 2011,
no. 3, pp. 12–15.
7. Viktorin V.D., Vliyanie osobennostey karbonatnykh kollektorov na effektivnost'
razrabotki neftyanykh zalezhey (Influence of features of carbonate
reservoirs on the efficiency of the development of oil deposits), Moscow:
Nedra Publ., 1988, 150 p.
8. Savchik M.B., Ponomareva I.N., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 2, pp. 77–82.
9. Mitryukhin M.V., Ponomareva I.N., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 3, pp. 104–109.
10. Erofeev A.A., Mordvinov V.A., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 5, pp. 57–62.
11. Poplygin V.V., Poplygina I.S., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 5, pp. 63–69.
12. Umrikhin I.D., Dneprovskaya N.I., Buzinov S.N. et al.,Geologiya nefti i gaza–
The journal Oil and Gas Geology, 1982, no. 5, pp. 21–25.
13. Martyushev D.A., Neftyanoe khozyaystvo – Oil Industry, 2014, no. 4,
pp. 51–53.
14. Lekomtsev A.V., Mordvinov V.A., Turbakov M.S., Neftyanoe khozyaystvo –
Oil Industry, 2011, no. 4, pp. 114-116.
15. Lekomtsev A.V., Mordvinov V.A., Nauchnye issledovaniya i innovatsii, 2011,
V. 5, no. 4, pp. 29-32.
16. Lekomtsev A.V., Mordvinov V.A., Poplygin V.V., Ponomareva I.N., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 10, pp. 132-133.
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Drilling of chinks |
A.Yu. Mosunov, O.Yu. Grishkevich, I.A. Nikolskaya, E.E. Lange (Tyumen Branch of SurgutNIPIneft, RF, Tyumen) On the influence of the sideholes profile on the initial production rate of wells (by example of Nizhne-Sortimskoye oilfield) DOI: Key words: profile of sideholes, cross break zone, horizontal section, liquid rate, dynamic equation. The article analyses the influence of the profile of sideholes on the initial production rate of wells in order to select the optimal profile for sideholes drilling. Having considered the cases under analysis, we have concluded that the productivity rates of S-shaped sideholes are comparable to the productivity rates of straight-line sideholes. In the case of sideholes with complicated horizontal section the results differ a lot. In order to prove the inexpediency of sideholes having cross breaks zones, it is necessary to undertake the well logging complex and find functioning layer intervals. Sideholes hydrodynamic research is also important.References
1. Yarullin R.K., Vremennye metodicheskie rekomendatsii po provedeniyu
issledovaniy i metodike interpretatsii rezul'tatov geofizicheskikh issledovaniy
deystvuyushchikh gorizontal'nykh skvazhin mnogodatchikovoy apparaturoy
na ob"ektakh OAO “Surgutneftegaz” (Temporary guidelines for the research
methodology and interpretation of the results of geophysical investigations
of existing horizontal wells using multisensor equipment at Surgutneftegaz),
Ufa, 2008.
2. Mosunov A.Yu., Metodicheskie rekomendatsii (posobie) po podboru
skvazhin i optimal'nogo profilya provodki po plastu bokovogo stvola i
otvetvleniy v zavisimosti ot ob"ekta razrabotki na mestorozhdeniyakh OAO
“Surgutneftegaz” (Guidelines (manual) on the selection of wells and the optimal
profile of sidetrack and branches depending on the subject of development
in the fields of Surgutneftegaz), Tyumen': SurgutNIPIneft, 2006, 46 p.
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Working out and operation of oil deposits |
V.G. Zhoglo (BelNIPIneft, the Republic of Belarus, Gomel) Geological substantiation of technology of oil field development within salinized low-permeability reservoirs DOI: Key words: low-permeable salinizated petroleum reservoirs, Pripyat Trough, prospecting and exploitation of oil deposits, dissolution of catagenetic halite Low permeability of petroleum reservoirs in subsaliferous and intersaliferous deposits within many oil- and salt-bearing regions of the world is often conditioned by catagenetic filling of voids in rocks with halite and other minerals (anhydrite, calcite, dolomite). The Irkutsk Amphitheatre and Tungus Basin in Russia, the Pripyat Trough in Belarus, the Triassic Province in Algeria, the Michigan Basin in USA could be mentioned among such regions. The intensive dissolution of catagenetic halite and the removal of this process products together with by-product water of producing wells onto the surface take place under oil deposits development using fresh water for oil driving and keeping of reservoir pressure. The mentioned above regularities are recommended to use for creating technologies of oil field development within salinized low-permeability reservoirs. The efficiency of the suggested technology is considered based on a test hydrodynamic model.References
1. Mulyak V.V., Poroshin V.D., Gattenberger Yu.P. et al., Gidrokhimicheskie
metody analiza i kontrolya razrabotki neftyanykh i gazovykh mestorozhdeniy
(Hydrochemical methods of analysis and control of oil and gas field development),
Moscow: GEOS Publ., 2007, 245 p.
2. Poroshin V.D., Mulyak V.V., Metody obrabotki i interpretatsii gidrokhimicheskikh dannykh pri kontrole razrabotki neftyanykh mestorozhdeniy (Methods of processing and interpretation of hydrochemical data in monitoring of oil field development), Moscow: Nedra-Biznestsentr Publ., 2004, 220 p.
3. Grinchenko V.A., Vinogradov I.A., Timchuk A.S., Gordeev Ya.I., Neftyanoe
khozyaystvo – Oil Industry, 2013, no. 8, pp. 85–89.
4. Makhnach A.A., Katagenez i podzemnye vody (Catagenesis and groundwater),
Minsk: Nauka i tekhnika Publ., 1989, 33 p.
5. Zhoglo V.G., Grimus S.I., Proceedings International Scientific and Practical
Conference “Potentsial dobychi goryuchikh iskopaemykh v Belarusi i prognoz
ego realizatsii v pervoy polovine KhKhI veka” (Potential of fossil fuels production
in Belarus and forecast of its realization in the first half of the twentyfirst
century), Gomel': Polespechat' Publ., 2012, pp. 424–435.
6. Zhoglo V.G., Demyanenko N.A., Khaletskiy A.V. et al., Neftyanoe khozyaystvo
– Oil Industry, 2012, no. 9, pp. 78–81.
7. Patent 2139987 RF C1, MPK E21B43/00, E21B43/22, Method for treating
bottom-hole zone of bed, Inventors: Glumov I.F., Ziganshin E.S., Kochetkov
V.D. et al.
8. Gorodnov A.V., Chernoglazov V.N., Davydova O.P., Karotazhnik, 2012,
V. 12(222), pp. 26–41.
9. Vinogradov I.A., Zagorovskiy A.A., Grinchenko V.A., Gordeev Ya.I., Neftyanoe khozyaystvo – Oil Industry, 2013, no. 1, pp. 74–77.
10. Grinchenko V.A., Vinogradov I.A., Zagorovskiy A.A., Neftyanoe khozyaystvo
– Oil Industry, 2013, no. 4, pp. 100–103.
11. Samoylov M.V., Bynkov C.JI., Antonov M.S., Khalikova V.E.,
Neftepromyslovoe delo, 2012, no. 11, pp. 76–81.
12. Surguchev M.L., Vtorichnye i tretichnye metody povysheniya nefteotdachi
plastov (Secondary and tertiary EOR methods), Moscow: Nedra Publ.,
1985, 308 p.
13. Makhnach A.A., Postsedimentatsionnye izmeneniya mezhsolevykh devonskikh
otlozheniy Pripyatskogo progiba (Postsedimentary changes of intersalt
Devonian deposits of the Pripyat Trough), Minsk: Nauka i tekhnika Publ.,
1980, 200 p.
14. Sakhibgareev R.S., Doklady akademii nauk SSSR – Doklady Earth Sciences,
1974, V. 219, no. 3, pp. 721–722.
15. Tyumentsev V.L., Korotaev A.I., Doklady akademii nauk BSSR, 1980, V. XXIV, no. 9, pp. 480–483.
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D.A. Garipova, V.V. Poplygin (Perm National Research Polytechnic University, RF, Perm) Effectiveness of oil reservoir fracturing in case of high gas saturation DOI: Key words: oil reservoir, productivity factor, well, fracturing, bottomhole pressure, proppant. The paper presents the results of hydraulic fracturing on the field with high gas saturation of reservoir oil. The geometric dimensions - volume of pumped fracture proppant relationship is shown. Wells operation conditions after hydraulic fracturing are plotted against these conditions before hydraulic fracturing. There was a sharp decrease in flow rates after fracturing in wells with low bottomhole pressure. The authors give several recommendations on selecting wells for hydraulic fracturing for examined layer and similar objects. References
1. Turbakov M.S., Lekomtsev A.V., Erofeev A.A., Neftyanoe khozyaystvo – Oil
Industry, 2011, no. 8, pp. 123–125.
2. Lekomtsev A.V., Mordvinov V.A., Turbakov M.S., Neftyanoe khozyaystvo – Oil Industry, 2011, no. 10, pp. 30–31.
3. Turbakov M.S., Erofeev A.A., Neftyanoe khozyaystvo – Oil Industry, 2010,
no. 11., pp. 106–107.
4. Mordvinov V.A., Poplygin V.V., Neftyanoe khozyaystvo – Oil Industry, 2011,
no.8, pp. 120-122.
5. Poplygin V.V., Galkin S.V., Davydova I.S., Geologiya, geofizika i razrabotka
neftyanykh i gazovykh mestorozhdeniy, 2010, no. 12, pp. 54–58.
6. Poplygin V.V., Prognozirovanie produktivnosti skvazhin i tempov
nefteizvlecheniya pri vysokoy gazonasyshchennosti plastovoy nefti (na
primere mestorozhdeniy Verkhnego Prikam'ya) (Prediction of well productivity
and oil recovery rates at high gas saturation of reservoir oil (for example, deposits
of the Upper Kama region)): Thesis of the candidate of technical science,
St. Petersburg, 2011.
7. Poplygin V.V., Davydova I.S., Kuznetsov I.V., Galkin S.V., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i gornoe delo, 2010, no.5, pp. 70–74.
8. Mordvinov V.A., Poplygin V.V., Erofeev A.A., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 10, pp. 102–103.
9. Ikonnikova L.N., Zolotukhin A.B., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 2, pp. 61–68.
10. Savchik M.B., Ponomareva I.N., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 2, pp. 77–82.
11. Erofeev A.A., Mordvinov V.A., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 5, pp. 57–62.
12. Mordvinov V.A., Poplygin V.V., Chalov S.V., Neftyanoe khozyaystvo – Oil Industry, 2010, no.8, pp. 104–106.
13. Poplygin V.V., Neftyanoe khozyaystvo – Oil Industry, 2011, no. 10, pp. 28–29.
14. Poplygin V.V., Poplygina I.S., Vestnik Permskogo natsional'nogo issledovatel'skogo politekhnicheskogo universiteta. Geologiya. Neftegazovoe i
gornoe delo, 2012, no. 5, pp. 63–69.
15. Poplygin V.V., Poplygina I.S., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 10, pp. 104–105.
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Technics and technology of oil recovery |
А.М. Kunakovа, R.R.Gumerov (Gazpromneft NTC LLC, RF, Saint-Petersburg), E.V. Zagrebelnyi, V.A. Sukovatyj (Gazpromneft Orenburg CJSC, RF, Orenburg), M.K. Rogachev, D.V. Mardashov (National Mineral Resources University (University of Mines), RF, Saint-Petersburg) Development of process liquid selection method for Orenburg oil and gas field conditions during killing wells process DOI: Key words: well killing, process fluids, blocking compounds, filtration. The paper presents the modern selection method of blocking composition which is used during killing of oil and gas wells. This method of selection based on laboratory physical and chemical filtration studies with modeling of gas breakthrough process from bottomhole formation zone. The experiments were carried out in temperature and pressure conditions that are close to the natural reservoir. Core samples from the eastern section of the Orenburg gas field were used.References
1. Zeygman Yu.V., Fizicheskie osnovy glusheniya i osvoeniya skvazhin (Physical basis of killing and exploration wells), Ufa: Publ. of UGNTU, 1996, 78 p.
2. Rogachev M.K., Strizhnev K.V., Bor'ba s oslozhneniyami pri dobyche nefti (Management of complications during oil production), Moscow: Nedra-Biznestsentr Publ., 2006, 295 p.
3. Rogachev M.K., Mardashov D.V., Strizhnev K.V., Zeygman Yu.V., Neftegazovoe delo – Oil and Gas Business, 2007, V. 5, no. 2, pp. 55-58.
4. Ryabokon' S.A., Tekhnologicheskie zhidkosti dlya zakanchivaniya i remonta skvazhin (Process fluids for completion and workover), Krasnodar, 2009, 337 p.
5. Tokunov V.I., Saushin A.Z., Tekhnologicheskie zhidkosti i sostavy dlya povysheniya produktivnosti neftyanykh i gazovykh skvazhin (Process fluids and compositions for increasing the productivity of oil and gas wells), Moscow: Nedra Publ., 2004, 711 p.
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E.I. Kryzhanovsky, P.N. Raiter, L.I. Romanishin, T.L. Romanishin (Ivano-Frankivsk National Technical University of Oil and Gas, Ukraine, Ivano-Frankivsk) Experimental research of characteristics of magnetic systems of the fishing tools DOI: Key words: magnetic system, hoisting capacity, traction characteristics, magnetic flux density, fishing tool. The new constructions of the magnetic systems of the fishing tools are presented. An improved method for determining the traction characteristics is described. The results of the experimental research of the systems based on permanent magnets are given.References
1. Kurnikov Yu.A., Kontsur I.F., Kobylyanskiy M.T., Romanishin L.I., Magnitnye ustroystva dlya ochistki skvazhin (Magnetic fishing tools for well cleaning), L'vov:
Vishcha shkola Publ., 1988, 108 p.
2. Zeynalov R.R., Zejnalov R. R., Stroitel'stvo neftyanykh i gazovykh skvazhin na
sushe i na more, 2009, no. 7, pp. 8-10.
3. Romanishin T.L., Razvedka i razrabotka neftyanykh i gazovykh mestorozhdeniy,
2013 no. 1, pp. 143-152.
4. Patent no. 99790 Ukraine, MPK E 21B 31/06, Lovitel' magnitnyy (Magnetic
fishing tool), Inventors: Kryzhanovskiy E.I., L.I. Romanishin, Romanishin T.L.
5. Saban T.I., Romanishin L.I., Neftyanaya i gazovaya promyshlennost', 1988,
no. 2, pp. 29-31.
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The oil-field equipment |
V.P. Fraishteter, I.A. Nissenbaum, M.K. Veliev (Giprotyumenneftegaz JSC, HMS Group, RF, Tyumen) Optimizing the control of pumping unit of formation-pressure maintenance system DOI: Key words: pumping unit control optimization, well pad pump station (WPPS), power efficiency increase, variable-frequency electric drive. Well pad pump station (WPPS) pumping units are the elements of the high energy waste system. One of the reasons of the specified circumstance is a low level of pump electrical drive controllability. The article presents methods and a control system enabling to optimize operation of WPPS for power and process efficiency increase of the formation-pressure maintenance system by applying variable-frequency electric drives. Stated, that application of variable-frequency electric drives on all booster and two main pumping units is the most reasonable.References
1. Nissenbaum I.A., Kudryashov R.A., Novoselov Yu.B., Frayshteter V.P., Energetika Tyumenskogo regiona, 2000, no. 3, pp. 2–9.
2. Frayshteter V.P., Nissenbaum I.A., Veliev M.K., Neftyanoe khozyaystvo – Oil
Industry, 2013, no. 3, pp. 86–88.
3. Sushkov V.V., Veliev M.K., Promyshlennaya energetika, 2013, no. 1, pp. 2–5.
4. Patent no. 2493361 RF, MPK E21B43/20, Method for controlling multimachine
complex of reservoir pressure maintenance system, Inventors: Veliev
M.K., Sushkov V.V.
5. Sushkov V.V., Veliev M.K., Neftyanoe khozyaystvo – Oil Industry, 2013, no. 12, pp. 125–127.
6. Utility patent no. 119474 RF, MPK G05B13/00, Sistema optimal'nogo upravleniya kustovoy nasosnoy stantsiey (System of optimal control cluster
pump station), Inventors: Veliev M.K., Sushkov V.V.
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Ecological and industrial safety |
A.V. Korobov, E.E. Fomina, E.V. Glebova, A.B. Aleksandrov (Gubkin Russian State University of Oil and Gas, RF, Moscow), I.V. Voronin (PPON Novoe OJSC, RF, Dmitrov) Development of methods for the assessment of occupational risk tank farm workers DOI: Key words: professional risk, technique, safety, a special assessment of working conditions, production control. The problem of the current legislation of the Russian Federation in the field of risk management is the lack of computational techniques occupational risk assessment adapted to hazardous production facilities of oil and gas complex. Therefore, in this paper we propose a universal technique for occupational risk assessment of workers, which can be used in oil and gas companies, in particular at the tank farms.References
1. Trudovoy kodeks Rossiyskoy Federatsii (Labor Code of the Russian Federation) no. 197-FZ from 30.12.01.
2. RF Government Resolution no. 263 ot 10.03.99 g. (red. ot 21.06.13 g.) “Ob organizatsii i osushchestvlenii proizvodstvennogo kontrolya za soblyudeniem
trebovaniy promyshlennoy bezopasnosti na opasnom proizvodstvennom
ob"ekte” (On the organization and implementation of production control of
industrial safety at hazardous production facilities).
3. Posobie po nablyudeniyu za usloviyami truda na rabochem meste v
promyshlennosti. Sistema Elmeri (Handbook of monitoring of working conditions
in the workplace in the industry. Elmer system), Publ. of Institut professional'nogo
zdravookhraneniya Finlyandii. – https://docs.google.com/file/d/
0B8F7Cj30sVocenR0c0gybTZZRFE/edit?pli=1
4. Fedorets A.G., Energobezopasnost' v dokumentakh i faktakh – Energysafety
in documents and facts, 2008, no. 2, pp. 10–16.
5. The order of MHSD Russia no. 970n from 09.12.09 “Ob utverzhdenii tipovykh
norm besplatnoy vydachi spetsial'noy odezhdy, spetsial'noy obuvi i drugikh
sredstv individual'noy zashchity rabotnikam neftyanoy promyshlennosti, zanyatym
na rabotakh s vrednymi i (ili) opasnymi usloviyami truda, a takzhe na
rabotakh, vypolnyaemykh v osobykh temperaturnykh usloviyakh ili svyazannykh
s zagryazneniem” (On approval of model rules of free issue of special
clothing, footwear and other personal protective equipment to employees
of the oil industry, engaged in work with harmful and (or) hazardous working
conditions and well work carried out in special temperature conditions or pollution).
6. The order of MHSD Russia no. 1122n from 17.12.10 “Tipovye normy besplatnoy vydachi rabotnikam smyvayushchikh i (ili) obezvrezhivayushchikh sredstv” (Model rules of free issue to workers the sweep and (or) detoxifying equipment).
7. Korobov A.V., Fomina E.E., Upravlenie kachestvom v neftegazovom komplekse, 2013, no. 1, pp. 57–58.
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N.V. Chukhareva, O.L. Bulgakova, D.S. Rozhkova, I.A. Khadrevich (Tomsk Polytechnic University, RF, Tomsk) Oil spill utilization by peat sprbent DOI: Key words: peat sorbent, heat treatment, oil, microorganisms, decomposition degree. Researches of air-dried and heat-treated peat sorbent for determining its ability to destroy oil on the water surface were carried out. Physiological groups of bacterium and microorganisms from raw and oil contaminated peat extracts, which were in contact with oil and drinking water from centralized supply systems during two months, were defined. Also it was found that heat treatment has impact on bacterium reproductive activity, oil destruction rate, oil concentration in water. References
1. Chukhareva N.V., Blokhina O.L., Rozhkova D.S., Khadkevich I.A., Proceedings of XII International scientific and practical conference “Prirodnoresursnyy potentsial, ekologiya i ustoychivoe razvitie regionov Rossii” (Natural-resource potential, ecology and sustainable development of Russian regions), Penza: Publ. of RIO PGSKhA, 2014, pp. 104-108.
2. Tarnovskaya L.I., Zakonomernosti izmeneniya gruppovogo sostava torfa v
protsesse termoliza (Patterns of change in the group composition of peat in
the thermolysis): thesis of candidate of technical science, Tomsk, 1985.
3. Nalivayko N.G., Laboratornyy praktikum po mikrobiologii vody: uchebnoe
posobie (Laboratory workshop on water microbiology: Tutorial), Tomsk: Publ.
of Tomsk Polytechnic University, 2009, 114 p.
4. Karyukhina T.A., Churbanova I.N., Khimiya vody i mikrobiologiya (Water
chemistry and microbiology), Moscow: Stoyizdat Publ., 1983, 169 p.
5. Gusev M.V., Minaeva L.A., Obshchaya mikrobiologiya (General microbiology),
Moscow: Publ. of MSU, 1973, 276 p.
6. Emtsev V.T., Mishustin E.N., Mikrobiologiya (Microbiology), Moscow: Drofa
Publ., 2005, 445 p.
7. Naydanova O.G., Efremov A.I., Ekologiya morya, 2000, V. 52, pp. 72-74.
8. Repina M.A., Nefteuglevodorodookislyayushchie mikroorganizmy vod
yuga ostrova Sakhalin (Petroleum hydrocarbons oxidizing microorganisms of
south of Sakhalin waters): thesis of candidate of biological sciences, Vladivostok,
2009.
8. Lishtvan I.I., Korol' N.T., Osnovnye svoystva torfa i metody ikh opredeleniya
(Basic properties of peat and methods for their determination), Minsk: Nauka
i tekhnika Publ., 1975.
9. Bazhenov D.A., Modelirovanie fiziko-khimicheskikh zakonomernostey
nizkotemperaturnogo razlozheniya torfa (Modeling of physical and chemical
laws of the low-temperature decomposition of peat): thesis of candidate
of chemical sciences, Tomsk, 2000.
10. Chukhareva N.V., Shishmina L.V., Maslov S.G., Vestnik Krasnoyarskogo gosudarstvennogo agrarnogo universiteta, 2013, no. 8, pp. 56-63.
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