March 2014


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Volgogradnipimorneft - 55 years



Standardization and technical regulation

Yu. Bardin, R.A. Gurman, A.S. Mashtakov (LUKOIL-Engineering Limited VolgogradNIPImorneft Branch Office in Volgograd)
On the necessity of the GOST R development in oil and gas field facilities design on the continental shelf

DOI:

Support of the offshore field facilities design with proper regulatory documents is becoming more and more important task. While developing project documentation for the continental shelf field facilities construction, a design company has to apply a wide range of different documents containing identical, if not mutually exclusive provisions. Standardization in offshore field facilities design is to be developed by means of the development of the Russian standards GOST R, but not institutional or corporate documents.

Key words: Offshore oil and gas production, Technical regulation, Glavgosekspertiza, Standardization, GOST R

References
1. Kvasnyak A.D., Gazovaya promyshlennost' – GAS Industry of Russia, 2011,
no. 8, pp. 58-62.
2. Polozhenie ob organizatsii i provedenii gosudarstvennoy ekspertizy
proektnoy dokumentatsii i rezul'tatov inzhenernykh izyskaniy (Regulations
on the organization and conduct of public examination of project documentation
and engineering research): approved by the RF Government Decree no. 145 of 05.03.07.  

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PermNIPIneft - 50 years



Geology and geologo-prospecting works

A.V. Stepanov, G.N. Samojlenko (LUKOIL-Engineering Limited VolgogradNIPImorneft Branch Office in Volgograd), S.I. Chizhov (TPO "RITEK" - "Volgogradneftegaz")
The description of maturation process for the Paleozoic deposits of the flanks of Caspian depression and Pachelma Aulacogen

DOI:

The catagenesis of Paleozoic deposits of Caspian Depression and its outline tectonic zones is reviewed in the present article. The nature of change of reservoir rocks at large depths and their connection with reservoir pressure have been analyzed. Applications of the methods of modern thermodynamic analysis based on the method of Gibbs and Helmholtz potentials minimization makes it possible to illustrate the essential role of the reservoir fluids in reservoir types formation and anomalously high reservoir pressure.

Key words: flanks of Caspian Depression, catagenesis of reservoirs, abnormal reservoir pressures, minimization of thermodynamic potentials.

References
1. Karnyushina E.E., Burlin Yu.N., Geologiya i geokhimiya goryuchikh iskopaemykh (Geology and geochemistry of combustible minerals), 2003, pp. 69-84.
2. Proshlyakov B.K., Gal'yanova T.I., Pimenov Yu.G., Kollektorskie svoystva osadochnykh porod na bol'shikh glubinakh (Reservoir properties of sedimentary
rocks at great depths), Moscow: Nedra Publ., 1987, 200 p.
3. Il'chenko V.P., Neftegazovaya gidrogeologiya podsolevykh otlozheniy
Prikaspiyskoy vpadiny (Oil and gas hydrogeology of subsalt deposits of the
Caspian Basin), Moscow: Nedra Publ., 1998, 288 p.
4. Aleksandrov B.L., Anomal'no-vysokie plastovye davleniya v neftegazonosnykh
basseynakh (Abnormally high reservoir pressure in the oil and gas
basins), Moscow: Nedra Publ., 1987, 216 p.
5. Karpov I.K., Stepanov A.N., Chudnenko K.V., Bychinskiy V.A., Collected papers “Geokhimicheskoe modelirovanie i materinskie porody neftegazonosnykh
basseynov” (Geochemical modeling and source rock of oil and gas
basins), St. Petersburg: Publ. of VNIGRI, 1998, pp. 48-61.
6. Karpov I.K., Stepanov A.N., Bychinskiy V.A., Proceedings of II International
Conference on Petroleum Chemistry, Tomsk: Publ. of The Institute of Petroleum
Chemistry SB RAS, 1994, pp. 55-56.
7. Barker C., Calculated volume and pressure changes during the thermal
cracking of oil to gas in reservoir, AAPG bull., 1990, V. 74, no. 8, pp. 1254-1261.
8. Stepanov A.N., Collected papers “Voprosy geologii Prikaspiya i shel'fa
Kaspiyskogo morya” (Questions of Geology of Caspian region and the
Caspian Sea shelf), 2004, V. 62, pp. 192-204.
9. Stepanov A.N., Proceedings of III All-Russian Seminar “Modelirovanie neravnovesnykh
sistem – 2000” (Modeling of nonequilibrium systems - 2000), Krasnoyarsk:
Institute of Computational Modelling of SB RAS, 2000, 249 p.
10. Bazhenova T.K., Gembitskaya L.A., Collected papers “Geokhimicheskoe
modelirovanie i materinskie porody neftegazonosnykh basseynov Rossii i
SNG” (Geochemical modeling and source rock of oil and gas basins of Russia
and the CIS), St. Petersburg: Publ. of VNIGRI, 2000, pp. 23-27.
11. Barker C., Takach N.E., Prediction of gas composition in ultradeep sandstone
reservoir, AAPG bull., 1992, V. 76, no. 12, pp. 1859-1873.
12. Stepanov A.N., Bychinskiy V.A., Karpov I.K. et al., Collected papers “TEK
Rossii – osnova protsvetaniya strany” (FEC of Russia - the basis of the country's
prosperity), St. Petersburg: Publ. of VNIGRI, 2004, pp. 60-65.
13. Bulin N.K., Egorkin A.V., Regional'nyy prognoz neftegazonosnosti nedr po
glubinnym seysmicheskim kriteriyam(Regional forecast of oil and gas potential
of subsoil using deep seismic criteria), Moscow: Publ. of Tsentr GEON Publ.,
2000, 194 p.
14. Frid A.M., Yufin P.A., Doklady akademii nauk – Transactions (Doklady) of
the Russian Academy of Sciences. Earth Science Sections, 1991, V. 319, no. 5,
pp. 1213-1217.
15. Dmitrievskiy A.N., Balanyuk I.E., Karakin A.N. et al., Gazovaya promyshlennost' – GAS Industry of Russia, 2000, no. 1, pp. 2-5. 

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Stukova T.V. (Affiliate Branch of OOO “LUKOIL-Engineering” PermNIPIneft” in Perm)
The capabilities of palinologic method in defining of type and intensity of diffuse organic matter catagenesis

DOI:

There is a correlation between paleotemperatures, color and integrity of fossilized miospores, which are being a part of organic components of geological materials. We are defining the type and intensity of organic materials catagenesis by the composition of undissolved dispersed organics, and integrity and colour of miospores. Also we are showing the capabilities of palinologic method in evaluating the hydrocarbon potential of lower carboniferous deposits of Perm region.

Key words: miospores, undissolved dispersed organics, catagenesis.
References
1. Zdobnova E.N. et al., Proceedings of XII All-Russian Palynological Conference,
St. Petersburg, VNIGRI, 2008, Part III, pp. 136 – 141.
2. Kabanova V.M., Kostesha O.N., Shikhovtseva L.G., Proceedings of Regional
Conference of geologists of Siberia, the Far East northeast Russia, Tomsk, 2000,
Part II, pp. 342 – 344.
3. Musina G.V., Sakhibgareev R.S., Interuniversity scientific collection “Palinologicheskie taksony v biostratigrafii” (Palynological taxons in biostratigraphy),
Mezhvuzovskiy nauchnyy sbornik, Publ. of Saratov State University, 1989,
pp. 77–85.
4. Rovnina L.V., Metodika opredeleniya iskhodnogo tipa i urovnya katageneza
organicheskogo veshchestva palinologicheskim metodom (Methods of determining
the original type and level of organic matter katagenesis by palynological
method), Moscow: Publ. of IGiRGI, 1984, 17 p.
5. Stukova T.V., Proceedings of IV geological conference KamNIIKIGS “Sovremennye problemy geologii” (Modern problems of geology), Perm', 2008,
pp. 122 –125.
6. Stukova T.V., Proceedings of XIII Russian Palynological Conference “Problemy
sovremennoy palinologii” (Problems of modern palynology), Syktyvkar: Publ. of
Institute of Geology, Komi SC UB RAS, 2011. – S. 221 – 224.
7. Stukova T.V., Proceedings of II Regional Meeting “Fatsial'nyy analiz v neftegazovoy litologii” (Facies analysis in oil and gas lithology), Tomsk, 2012, pp. 66-71.
8. Sukhanov A.A., Otmas A.A. (st.), Makarova I.R., Neftegazovayageologiya.
Teoriyaipraktika – Petroleum Geology - Theoretical and Applied Studies, 2012,
no. 3, pp. 1 – 11.
9. Stukova T.V., Palinostratigrafiya verkhneturneysko–vizeyskikh (kos'vinsko–tul'skikh) terrigennykh otlozheniy Permskogo Prikam'ya (Palynostratigraphy of upper-Tournaisian-Visean (Kosva-Tula) clastic sediments of the Perm Prikamye): Thesis of the
candidate of geological-mineralogical sciences, Perm': PermNIPIneft', 2010.
10. Kalmykov G.S., Babinkova N.I., Collected papers “Geologiya i poleznye
iskopaemye Urala i Priural'ya” (Geology and Minerals of the Urals and Ural region),
Perm': Publ. of Perm Polytechnic Institute, 1971, pp. 57 – 63.
11. Stashkova E.K., Matyashov S.V., Panyaev A.V. et al., Collected papers “Geologiya, metody poiskov, razvedki i otsenki mestorozhdeniy toplivno-energeticheskogo syr'ya” (Geology, methods of prospecting, exploration and evaluation of deposits of fuel and energy resources), Moscow: Publ. of Geoinformmark, 2004, 78 p.
12. Stashkova E.K., Frik M.G., Titova G.I. et al., Collected papers “Geologiya,
metody poiskov, razvedki i otsenki mestorozhdeniy toplivno-energeticheskogo
syr'ya” (Geology, methods of prospecting, exploration and evaluationof deposits
of fuel and energy resources), Moscow: Publ. of Geoinformmark, 2004, 69 s.

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I.S. Putilov (Branch of OOO LUKOIL-Engineering PermNIPIneft in the city of Perm)
Technological innovation polivariation collector prognostication on basis seismic exploration 3D

DOI:

It is suggested the supply mapping device geologic-geophysical object on basis of fuzzy-set theory. Realization forecast petroleum reservoir based on the fuzzy geologic-geophysical model of the oil field of the Perm territory.

Key words: collector prognosis, geologic-geophysical model, petroleum reservoir
References
1. Putilov I.S., Geologiya, geofizika i razrabotka neftyanykh i gazovykh
mestorozhdeniy, 2013, no. 3, pp. 33–37.
2. Putilov I.S., Geologiya, geofizika i razrabotka neftyanykh i gazovykh
mestorozhdeniy, 2007, no. 9, pp. 17– 21.
3. Putilov I.S., Galkin V.I., Neftyanoe khozyaystvo – Oil Industry, 2007, no. 9,
pp. 12–14.
4. Putilov I.S., Geologiya, geofizika i razrabotka neftyanykh i gazovykh
mestorozhdeniy, 2007, no. 10, pp. 16–19.
5. Putilov I.S., Vinokurova E.E., Khakimova Zh.A., Geologiya, geofizika i
razrabotka neftyanykh i gazovykh mestorozhdeniy, 2012, no. 4, pp. 49–53.
6. Putilov I.S., Pyatunina E.V., Geologiya, geofizika i razrabotka neftyanykh i
gazovykh mestorozhdeniy, 2012, no. 1, pp. 29–32.
7. Putilov I.S., Vinokurova E.E., Boyarshinova M.G., Geologiya, geofizika i
razrabotka neftyanykh i gazovykh mestorozhdeniy, 2012, no. 4, pp. 44–49.
8. Putilov I.S., Fil'kina N.A., Neftyanoe khozyaystvo – Oil Industry, 2011, no. 10,
pp. 40–43.
9. Putilov I.S., Geologiya geofizika i razrabotka neftyanykh i gazovykh
mestorozhdeniy, 2012, no. 4, pp. 22–25.
10. Certificate of authorship no. 2013610410, Avtorskoe svidetel'stvo ob ofitsial'noy registratsii programmy dlya EVM. Mnogovariantnyy prognoz kollektorov na osnove teorii nechetkikh mnozhestv (Certificate of authorship of official
registration of computer software. Multivariate prediction of collectors
based on the theory of fuzzy sets), author: Putilov I.S.
11. Putilov I.S., Tekhnologii seysmorazvedki – Seismic Technologies, 2013, no. 1,
pp. 59–64.
12. Zadeh L.A., The concept of a linguistic variable and its application to approximate reasoning, Part 1, 2 and 3// Information Sciences. – 1975. – Vol. 8. –
P.199-249, 301-357 and Information Sciences.–1976. – Vol. 9. –P. 43-80.
13. Deutsch C.V., Geostatistical reservoir modeling, Oxford University Press,
2002, 384 p.

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Drilling of chinks

R.A. Shadchnev, A.V. Mankevich, T.V. Melnikova (LUKOIL-Engineering Limited VolgogradNIPImorneft Branch Office in Volgograd), V.A. Morozov (OAO "RITEK")
Improvement of the quality and efficiency of directional well construction under harsh mining and geological conditions of Rechnoye field

DOI:

The article deals with one of the relevant technological challenges in drilling - improvement of the quality and efficiency of deep directional well construction under harsh mining and geological conditions of Rechnoye field by means of developing and introducing scientific and technical measures to preserve reservoir properties of a productive bed, high quality well construction and further safe operation resulting in hydrocarbon production inflow increase. Integrated economic benefit from constructing directional Antipovsko-Balykleyskaya 152 well in Rechnoye field with respect to introduced scientific and technical measures equalled 1,081,600.7 kRUB/year, with payback time of 1 year proving high economic efficiency of these measures.

Key words: construction, directional well, complications prevention, drilling muds, commercial drilling speed, economic efficiency.

References
1. Sharafutdinova R.Z., Bliznyukov V.Yu., Stroitel'stvo neftyanykh i gazovykh
skvazhin na sushe i na more, 2010, no. 7, pp. 31-33.
2. Ivanov Yu.A., Konovalov E.A., Kashkarov N.G., Stroitel'stvo neftyanykh i
gazovykh skvazhin na sushe i na more, 2009, no. 5, pp. 28-33.
3. Takhautdinov R.Sh., Sidorov L.S., Stroitel'stvo neftyanykh i gazovykh skvazhin
na sushe i na more, 2009, no. 9, pp. 33-36.
4. Koshelev V.N., Rastegaev B.A., Dobrosmyslov A.S., Stroitel'stvo neftyanykh i
gazovykh skvazhin na sushe i na more, 2008, no. 3, pp. 30-33.
5. Sharafutdinova R.Z., Stroitel'stvo neftyanykh i gazovykh skvazhin na sushe i
na more, 2008, no. 11, pp. 26-21.
6. Sharafutdinov Z.Z., Sharafutdinova R.Z., Neftegazovoe delo, 2004, pp. 3-21,
URL: http://www.ogbus.ru/authors/Sharafutdinov/Sharafutdinov_2.pdf
7. Chikhotkin V.F., Tret'yak A.Ya., Rybal'chenko Yu.M., Burda M.L., Burenie i neft', 2007, no. 7/8, pp. 58-60.
8. Polyakov V.N., Mnatsakanov V.A., Fokin V.V., Aver'yanov A.P., Stroitel'stvo neftyanykh i gazovykh skvazhin na sushe i na more, 2009, no. 3, pp. 10-13. 

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D.V. Novokreshchennykh, A.V. Raspopov (PermNIPIneft Branch of LUKOIL-Engineering LLC in Perm, RF, Perm)
Perspectives of radial drilling technology for oilfields in Perm region

DOI:

This article focuses on experience and development of radial drilling technology in a world practice. Main advantages of radial drilling are shown in comparison with standard methods. The paper summarizes recommended criteria for selection of candidate wells. In conclusion authors show main trends in further development of radial drilling in Perm oilfields and ways to improve the technology.

Key words: radial drilling, radial canals, levels of radial drilling.

References
1. Dickinson W., Dickinson R., Horizontal radial drilling system, SPE 13949, 1985.
2. Dickinson W., Dickinson R., Herrera A., Corpoven S.A., Dykstra H., Nees J.,
Slim hole multiple radials drilled with coiled tubing, SPE 23639, 1992.
3. Dickinson W., Dykstra H., Nordlund R., Coiled-tubing radials placed by
water-jet drilling: field results, theory and practice, SPE 26348, 1993..
4. Raspopov A.V., Kondrat'ev S.A., Novokreshchennykh D.V., Neftyanoe
khozyaystvo – Oil Industry, 2012, no. 3, pp. 78-79.
5. Raspopov A.V., Novokreshchennykh D.V., Vestnik TsKR Rosnedra, 2013, no. 4, pp. 52–56. 

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Lyadova N.A., Il'yasov S.E., Okromelidze G.V., Suntsov S.V., Kuchevasov S.I. (Affiliate Branch of OOO “LUKOIL-Engineering” PermNIPIneft” in Perm)
The experience of design and construction of a multihole wells

DOI:

Design was prepared and drilling technology of multilateral wells was tested on the Shagirtsko-Gozhanskoe oilfield, oilfield behalf of Arhangelskogo and Nozhovskogo oilfield in Perm region. In the process of well construction new technologies were developed and introduced.

Key words: multilateral drilling, design of multilateral wells, well design.

 


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S.E. Ilyasov, G.V. Okromelidze, O.A. Chugaeva, A.I. Bikmukhametov, A.N. Zubenin (PermNIPIneft Branch of LUKOIL-Engineering LLC in Perm, RF, Perm)
The experience of isolating works using foam cement technology at the fields of Perm region

DOI:

Key words: well, drilling, drilling fluids loss, isolating works, foam cement.

The experience of eliminating high-intensity drilling fluids losses in fractured rocks in the Perm region fields was hight-lighted. The properties of foam cement insulating material, technology and conditions of its application were described. Results of using foam cement insulating material 6 wells are given.

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Working out and operation of oil deposits

I.B. Fedotov, O.Yu. Kashnikov, A.V. Khanov, V.K. Artyukhovich (LUKOIL-Engineering Limited VolgogradNIPImorneft Branch Office in Volgograd)
Improvement of the development systems and enhanced oil recovery in pools of the Volgograd region fields

DOI:

The article includes the results and assessments of industrial perspectives of enhanced oil recovery methods in the fields of Volgograd region. The performed studies, calculations and results of implementation proved the possibility of oil recovery enhancement at the final development stage of the fields with fractured, low-permeability carbonate reservoirs by means of injection of fine-dispersed mixture of oil and gas (WAG injection). Created and implemented technologies of effective development of reef formations with carbonate, fractured reservoirs can be applied in other oil-producing regions of the country which will allow to preserve high rates of oil withdrawal and increase oil recovery.

Key words: development systems improvement, enhanced oil recovery, ejection disperser, water-and-gas mixture injection, additional oil production, production watercut decrease.

References
1. Novikov A.A., Bochkarev B.I., Sablin A.A. et al., Neftyanoe khozyaystvo – Oil Industry, 2001, no. 11,
pp. 66-68.
2. Fedotov I.B., Tarasov A.V., Artyukhovich V.K., Povyshenie nefteotdachi zalezhi s treshchinovatym kollektorom(
EOR of fractured reservoirs), Collected papers, 2012, V. 71, pp. 201-2012.
3. Research report no. № 1/4163-94/09, Zakachka trasserov s vodogazovoy smes'yu v skvazhinu no. 108
Kotovskogo mestorozhdeniya s tsel'yu proslezhivaniya fil'tratsionnykh potokov i otsenki okhvata evlanovsko-livenskoy zalezhi zavodneniem (Tracers injected with water-gas mixture into the well no. 108
of Kotovskoe field in order to monitor of filtration flows and estimates of flooding coverage for Evlanovsko-Livenskaya reservoir), Volgograd, OOO ”LUKOYL-VolgogradNIPImorneft'”, 2010, 59 p.
4. MU-01-001-01, Annex no. 1 to the order of OAO "LUKOIL" no. 95 of 21.05.01, Metodicheskie ukazaniya
OAO “LUKOYL”. Metodika otsenki tekhnologicheskoy effektivnosti metodov povysheniya nefteotdachi plastov (Methodical instructions of LUKOIL OAO. Methods of assessing technological efficiency of EOR). 

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L.A. Anisimov, I.V. Vorontsova, V.S. Levchenko (Branch of OOO «LUKOIL-Engineering» «VolgogradNIPImorneft» in Volgograd)
The use of tracers for reservoir characterization on the LUKOIL’s oilfields

DOI:

The use of tracers in the reservoir studies shows that this is the best method to evaluate the interwell space of reservoir. The following parameters are used for interwell space evaluation: tracer velocity in a reservoir; tracer concentration as the consequences of tracer dissolution in formation fluid flow; frequency of the tracer presence in samples. The use of tracer survey method can evaluate the vertical fluid flow barriers, reservoir continuity in every block, fluid-flow properties, and understanding of the reservoir architecture in the interwell space. The main result of tracer method is the ability to detect the ultra high permeability zones that cannot be found by other methods of reservoir analysis.

Key words: tracer, reservoir, water injection, filtration, phase permeability

References
1. Trunov N.M., Collected papers “Fundamental'nye problemy neftegazovoy
gidrogeologii” (Fundamental problems of petroleum hydrogeology), Proceedings
of International Scientific Conference dedicated to the 80th anniversary
of Kartsev A.A., Moscow, 2005, pp. 353–357.
2. Levchenko V.S., Shafikov R.R., Anisimov L.A. et al., Collected papers “Prognoz i razrabotka neftegazonosnykh struktur Nizhnego Povolzh'ya i Severnogo
Kaspiya” (Forecast and development of oil and gas structures of the Lower
Volga and Northern Caspian), 2012, V. 71, pp. 266–275.
3. Anisimov L.A., Vorontsova I.V. et al., Collected papers “Voprosy osvoeniya
neftegazonosnykh basseynov” (Questions to developing oil and gas basins),
2008, V. 67, pp. 200-208.
4. Anisimov L.A., Vorontsova I.V., Levchenko V.S. et al., Collected papers “Voprosy geologii i obustroystva mestorozhdeniy nefti i gaza” (Problems of geology
and oil and gas field construction), 2013, V. 72, pp. 102–114 .
5. Anisimov L.A., Kilyakov V.N., Sheykina A.F. et al., Collected papers “Voprosy
geologii i neftegazonosnosti Prikaspiya i shel'fa Kaspiyskogo morya” (Problems
of geology and petroleum potential of the Caspian region and shelf of
Caspian Sea), 2002, V. 59, pp. 79–92.
6. Grachev S.I., Krivova N.R., Sorokin A.V., Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy, 2008, no. 5, pp. 13–15. 

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I.A. Kibalenko, I.B. Fedotov, (LUKOIL-Engineering Limited VolgogradNIPImorneft Branch Office in Volgograd) S.V. Deliya (OOO “LUKOIL-Nizhnevolzhskneft”)
Yu. Korchagin field development characteristics

DOI:

The oil and gas-condensate field being drilled by large length horizontal wells has been studied in this article. Major problems which occurred during its putting into development and in the course of the development have been stated. Based on the field development monitoring that includes mathematic modelling and actual operation results and logging surveys, the main reasons for gas breakthrough from the gas cap have been identified. The article presents the main ways of solving the problems concerned with gas breakthrough production decrease.

Key words: offshore oil and gas-condensate field, vast under-gas-cap zone, horizontal wells, GOR increase, ways of preventing gas breakthrough from the gas cap   


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V.S. Levchenko, N.V. Valiullina, K.G. Kagan (LUKOIL-Engineering Limited VolgogradNIPImorneft Branch Office in Volgograd)
Supervision of development of the reservoirs of complex construction in South-Khylchuyusky field by means of pair interference method

DOI:

The article addresses the issue of the well flow tests at non-stationary filtration regimes and summary of the results of wells monitoring by means of pair interference method using thermo-pressure system gauges during well survey of South-Khylchuyusky oil field.

Key words: well flow tests, pair interference method, thermo-pressure system gauge, porosity and permeability properties, background curve, reactive curve.

References
1. Shagiev R.G., Izvestiya vysshikh uchebnykh zavedeniy “Neft' i gaz”,
1960, no. 11, pp. 53-59.
2. Buzinov S.N., Umrikhin I.D., Issledovanie neftyanykh i gazovykh
skvazhin i plastov (Investigation of oil and gas wells and reservoirs), Moscow: Nedra Publ., 1984, 269 p. 

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Cherepanov S.S., (LLC LUKOIL-PERM), Gurbatova I.P., Plotnikov V.V., Popov N.A., Sysoev I.V. (PermNIPIneft Branch of LUKOIL-Engineering LLC in Perm, RF, Perm)
The study of formation anisotropy on azimuthally oriented core samples of Perm Region

DOI:

The article presents features of a laboratory study of gas permeability of complex structures reservoir on azimuthally oriented full core samples. The presented method of the lateral anisotropy studying allows to characterize the pore system symmetry quickly and fully and identify the maximum filtration direction. Potential of use of data on anisotropy of filtrational properties of layer is analyzed with the help of hydrodynamic modeling. Prospects of development of researches of azimuthally oriented core are considered.

Key words: complex structures reservoir, azimuthally oriented core, permeability anisotropy.

References
1. Gurbatova I.P., Mikhaylov N.N., Proceedings of VIII All-Russian Scientific and
Technical Conference “Aktual'naya problema razvitiya neftegazovogo kompleksa
Rossii” (Actual problem of development Russian oil and gas complex),
Moscow, 2010, Part 1, pp. 94-95.
2. Metodicheskie rekomendatsii po issledovaniyu porod-kollektorov nefti i
gaza fizicheskimi i petrograficheskimi metodami (Guidelines on the Exploration
of oil and gas reservoir rocks by physical and petrographic methods):
edited by Goroyan V.I., Petersil'e V.I., Moscow: Publ. of VNIGNI, 1978.
3. Recommended practice for core analysis, API. RP 40, Second edition, American Petroleum Institute, February 1998. 

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A.I. Vlasov, K.V. Andreev, D.V. Kyrnaev(PermNIPIneft Branch of LUKOIL-Engineering LLC in Perm, RF, Perm)
Improving the development and exploitation through the use of elements of smart field

DOI:

Key words: intelligent oilfield integrated modeling, intelligent wells, intelligent well completions; intelligent control station.

The paper provides an overview of trends and analysis of the current situation and the implementation of projects of elements of smart field." Describes the main achievements in the field of intelligent systems in the fields of the Group of companies "LUKOIL" in the Perm region. Criteria of selection fields for subsequent pilot projects smart field. Described production and technical audit of the development and exploitation of the deposit
References
1. Mulyak V.V., Lyadova N.A., Voevodkin V.L., Neftyanoe khozyaystvo – Oil
Industry, 2011, no. 12, pp. 96–98.
2. Pchel'nikov R.L., Mironov D.V., Muslimov E.Ya., Shevchenko S.D., Inzhenernaya praktika, 2011, no. 5.
3. Barber E., Shippe M., Neftegazovoe obozrenie, 2007–2008, URL:
http://www.slb.ru/userfiles/file/Oilfield%20Review/2007/winter/2%20optimizingproduction.
pdf
4. Shevchenko S.D., Navozov V.A., Mironov D.V. et al., Optimisation of Oil
Production Control Processes while Implementing "Smart Field" Technologies
at the Samotlor Field, SPE 161978, 2012.

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D.V. Antonov, S.A. Kondratiev, A.A. Zhukovskij, T.S. Kochneva (PermNIPIneft Branch of LUKOIL-Engineering LLC in Perm, RF, Perm)
Experience of hydraulic fracturing in the deposits of Perm region and the main directions of improving its efficiency

DOI:

Key words: hydraulic fracturing; acid hydraulic fracturing; pilot works.

The experience in carrying out hydrofracturing in the fields of the Perm Krai is summarized. Its effectiveness dependences on the geological and physical characteristics of the reservoirs and process parameters of the performed operations are revealed. The basic directions to increase the efficiency of standard hydrofracturing and to improve technology on the basis of the results of experimental-industrial works are determined.

References
1. Kondrat'ev S.A., Proceedings of First open scientific-technical conference
of young scientists and specialists, 2006.
2. Voevodkin V.L., Raspopov A.V., Muzhikova L.N., Kondrat'ev S.A., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 12, pp. 104-106.
3. Economides, M.J., Oligney, R.E. and Valkó, P.P., Unified fracture design, Orsa Publishers, 2002, 201 p. 

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NGDU "Surgutneft" - 50 years




Geology and geologo-prospecting works

I.N. Plotnikova, G.T. Salakhidinova, F.F. Nosova, N.V. Pronin (Kazan (Volga region) Federal University, RF, Kazan), R.M. Minnullin (Oil and Gas Production Department Almetyevneft, RF, Almetyevsk)
Geochemical criteria for detecting of the areas of the oil deposits replenishment

DOI:

Key words: oil, modern day hydrocarbon inflow, replacement of oil reserve, geochemical studies of oil, formation and re-formation of oil deposits.

Oil of the Minnibaevskaya area of the Romashkinskoye oil field was studied using complex of geochemical methods. It was found that in Pashiysky horizon simultaneously there are oxidized, biodegrade oil and light oil with a high degree of gas-condensate component. Development of geochemical criteria of localization zones oil and gas inflow was initiated. The first results prove the effectiveness of the using of these criteria. Geochemical investigations of oils can be used to delineate areas of modern day oil and gas inflow in the developed productive oil reservoir.

References
1. Bochkarev V.A., Ostroukhov S.B., Bochkarev A.V., Krashakova A.V., Geologiya, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy, 2011,
no. 11, pp. 4-13.
2. Bochkarev V.A., Ostroukhov S.B., Krashakova A.V., Vestnik Volgogradskogo
gosudarstvennogo universiteta. Serija10. Innovatcionnaia deiatel’nost’ - Science
Journal of Volgograd State University. Technology and Innovations,
2012, V. 7, pp. S.57-61.
3. Kas'yanova N.A., Geologiya, geografiya i global'naya energiya, 2009,
no. 2(33), pp. 27-32.
4. Kayukova G.P., Romanov G.V., Plotnikova I.N., Georesursy – International
Journal of Sciences “Georesources”, V. 47, no. 5, pp. 37-40.
5. Muslimov R.Kh., Plotnikova I.N., EKO, 2012, no. 1, pp. 29-34.
6. Muslimov R.Kh., Postnikov A.V., Plotnikova I.N., Georesursy – International
Journal of Sciences “Georesources”, 2005, no. 1 (16), pp. 37-39.
7. Muslimov R.Kh., Glumov I.F., Plotnikova I.N. et al., Geologiya nefti i gaza –
The journal Oil and Gas Geology, 2004, no. 10, pp. 43-49.
8. Plotnikova I.N., Akhmetov A.N., Delev A.N., Usmanov S.A., Sharipov B.R.,
Izvestiya vysshikh uchebnykh zavedeniy. Gornyy zhurnal, 2011, no. 7,
pp. 63-69.
9. Plotnikova I.N., Georesursy – International Journal of Sciences “Georesources”,
2004, no. 1, pp. 40-41.
10. Usmanov S.A., Sharipov B.R., Plotnikova I.N. et al., Izvestiya vysshikh uchebnykh zavedeniy. Gornyy zhurnal, 2013, no. 1, pp. 15-21.
11. Plotnikova I.N., New data of the present-day active fluid regime of fractured
zones of crystalline basement and sedimentary cover in the eastern
part of Volga-Ural region, International Journal of Earth Sciences, 2008, no. 97,
pp. 1131-1142.
12. Plotnikova I.N., Nonconventional hydrocarbon targets in the crystalline
basement, and the problem of the recent replenishment of hydrocarbon reserves, Journal of Geochemical Exploration, 2006, no. 89, pp. 335-338. 

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R.S. Khisamov (Tatneft OAO, RF, Almetyevsk), V.G. Bazarevskaya, M.A. Shavaliev, I.I. Valeev (TatNIPIneft, RF, Bugulma)
On efficiency of prospecting on Tatneft OAO leases in Samara region

DOI:

Key words: resources,reserves, wells, prospecting, reserves increase, deposit, efficiency, integrated G&G analysis.

The paper considers the issues and the efficiency of the geological exploration carried out by Tatneft OAO on the Company’s leases in Samara region. An integrated science-based approach to selection of prospecting priorities to solve the objective of oil reserves increase enhances the efficiency of exploratory drilling, which results in considerable incremental C1 and C2 reserves and C3 resources. 


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N.V. Yankova (TNNC LLC, RF, Tyumen)
Additional properties of the detailed geological structure of the reservoir applied during simulation process

DOI:

Key words: detailed reservoir structure, correlation, lenticular structure, static-dynamic modeling, bottom hole and reservoir pressure.

This article covers the issue of the geological simulation quality improvement as a result of geologist and reservoir engineer interaction during the simulation process. The article includes case studies providing examples of the reservoir simulation quality improvement based on the detailed reservoir structure.

References
1. Yankova N.V., Kadochnikova L.M., Vasil'ev V.I., Interval. Peredovye neftegazovye tekhnologii, 2006, no. 7, pp. 3 8-42.
2. Neyman V.B., Teoriya i metodika paleotektonicheskogo analiza (Theory and
methodology of paleotectonic analysis), Moscow: Nedra Publ., 1984, 80 p.
3. Selley R.C., Ancient sedimentary environments and their sub-surface diagnosis, Cornell University Press,1970. 

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Drilling of chinks


D.F. Baldenko (Burovaya Tekhnika NPO OAO), F.D. Baldenko (Gubkin Russian State University of Oil and Gas, RF, Moscow)
Pressure difference monitoring at downhole screw motors operation

DOI:

Key words: positive displacement downhole motor (PDM), differential pressure, monitoring, pressure drop, drilling technology, operating elements.

Pressure difference monitoring at downhole screw motors operation is one of the effective ways of control of regime parameters and management of hydraulic energy at destruction of rocks in the process of wells drilling. Features of characteristics of these motors, depending on pressure difference, and the factors, influencing a choice of allowed pressure difference at operation and design of specified motors, are considered.
References
1. Baldenko D.F., Baldenko F.D., Gnoevykh A.N., Odnovintovye gidravlicheskie
mashiny (Single screw hydraulic machines), Moscow: Publ of IRTs
“Gazprom”, 2006–2007.
2. Baldenko D.F., Korotaev Yu.A., Burenie i neft', 2012, no. 3, pp. 3–7.
3. Khlebnikov D.A., Myalitsin N.A., Vestnik assotsiatsii burovykh podryadchikov,
2013, no.1.
4. Selivanov S.I., Baletinskikh D.I., Burenie i neft', 2011, no. 7, pp. 54–57.
5. Kobelev K.A., Inzhenernaya praktika, 2012, 9, pp. 64–66.
6. Certificate of authorship no. 1128646, Sposob kontrolya rezhima raboty
vintovykh dvigateley v zaboynykh usloviyakh (Method of control the operation
mode of screw propellers in downhole conditions), Authors: Baldenko
D.F., Bikchurin T.N., Vadetskiy Yu.V., Gusman M.T. et al.
7. Baldenko D.F., Baldenko F.D., Bikchurin T.N., Proceedings of All-Russian Research Institute of Drilling Equipment (VNIIBT), 2011, no. 3(71), pp. 95–105.
8. Luk'yanov E.E., Interpretatsiya dannykh GTI (Interpretation of geological
and technological research), Novosibirsk: Publishing House “Istoricheskoe
nasledie Sibiri”, 2011, 944 p.
9. US Patent no. 6019180, Method for evaluating the power output of a
drilling motor under downhole conditions, Feb. 1, 2000.

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Working out and operation of oil deposits

V.V. Ovcharov (TNNC LLC, RF, Tyumen)
Scaling of relative permeability functions as a method of regularizing numerical solution of the water-oil displacement problem

DOI:

Key words: scaling of functions, relative permeability, method of regularization, numerical diffusion, reservoir simulation.

The article dwells on the problem of simulating discontinuous solutions in numerical models as exemplified by the oil-water displacement problem in porous medium with neglected capillary pressure (Buckley-Leverett problem). It has been shown that coarse sampling in numerical models enhances the process of numerical diffusion, leading to “blurring” of the displacement front. The work presents a new method to regularize the numerical solution of the water-oil displacement problem in porous medium by scaling the relative permeability functions, which enables reconstruction of the displacement front’s movement using coarse grid with no changes in the numerical scheme. The carried out test calculations have confirmed the applicability of this method.

References
1. Bakhvalov NS., Zhidkov N.P., Kobel'kov G.N., Chislennye metody (Numerical methods), Moscow: BINOM Publ., 2003, 632 p.
2. Petrov I.B., Kholodov A.S., Zhurnal vychislitel'noy matematiki i matematicheskoy fiziki – Computational Mathematics and Mathematical Physics, 1984, V. 24, pp. 1172–1188.
3. Samarskiy A.A., Zhurnal vychislitel'noy matematiki i matematicheskoy
fiziki – Computational Mathematics and Mathematical Physics, 1967, V. 7,
pp. 62–93.
4. Basniev K.S., Dmitriev N.M., Kanevskaya R.D., Maksimov V.M., Podzemnaya
gidromekhanika (Subsurface hydromechanics), Moscow – Izhevsk: Publ. of
Institute of Computer Science, 2006, 488 p.
5. Metodicheskie rekomendatsii po proektirovaniyu razrabotki neftyanykh i
gazoneftyanykh mestorozhdeniy (Guidelines for the design of oil and gas
field development), Appendix to the Order of MNR of Russia no. 61 of
21.03.07.
6. Aziz Kh., Settari A., Petroleum reservoir simulation, London: Applied Science Publishers, 1979, 476 p. 

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V.G. Martynov (Gubkin Russian State University of Oil and Gas, RF, Moscow), A.I. Ipatov, M.I. Kremenetskiy, D.N. Gulyaev, V.M. Krichevskiy, V.V. Kokurina, S.I. Melnikov. (Gazpromneft NTC LLC, RF, Saint-Petersburg)
Permanent reservoir monitoring by logging gages at the stage of tight oil recovery

DOI:

Key words: reservoir surveillance, permanent down-hole gages, well logging, well testing, decline analyze, activities scheduling, production enhancement.

Development of low permeable reservoirs in Russia is gaining more and more active. In such conditions, the traditional methods of well logging and well-testing are very poor. They are replaced by permanent downhole monitoring of the development using logging gages. The concept of long-term monitoring includes not only a remote method of measurement in the well, but the feedback that involves operational use of accumulated information for the optimization and management of the oil field.
References
1. Ipatov A.I., Kremenetskiy M.I., Geofizicheskiy i gidrodinamicheskiy kontrol' razrabotki mestorozhdeniy
uglevodorodov (Geophysical and hydrodynamic control of hydrocarbon deposits development), 2nded., Izhevsk: RKhD Publ., 2010, 780 p.
2. Kremenetskiy M.I., Ipatov A.I., Informatsionnoe obespechenie i tekhnologii gidrodinamicheskogo modelirovaniya
neftyanykh i gazovykh zalezhey (Information support and technologies of hydrodynamic modeling of oil and gas deposits), Izhevsk: RKhD Publ., 2012, 896 c.
3. Ipatov A.I., Kremenetskiy M.I., Nuriev M.F., Neftyanoe khozyaystvo – Oil Industry, 2011, no. 9, pp. 34–38.
4. Baryshnikov A.V., Kofanov O.A., Galeev D.R. et al., Neftyanoe khozyaystvo – Oil Industry, 2011, no. 12,
pp. 30–33.
5. Gulyaev D.N., Kokurina V.V., Kremenetskiy M.I. et al., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 5,
pp. 82–85.
6. Ipatov A.I., Kremenetskiy M.I., Inzhenernaya praktika, 2012, no. 9, pp. 4–8.
7. Kremenetskiy M.I., Kokurina V.V., Mel'nikov S.I., Monitoring technology for co-mingled tight play development
with hydraulic fractures, SPE 161970, 2012.
8. Gulyaev D.N., Ipatov A.I., Kremenetskiy M.I. et al., Neftyanoe khozyaystvo – Oil Industry, 2012, no. 12,
pp. 36 - 39.
9. Kokurina V.V., Kremenetskiy M.I, Krichevskiy V.M., Karotazhnik, 2013, V. 227, pp. 76–101.

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T.N. Silkina, P.V. Molodykh, M.V. Skorodulina (TomskNIPIneft JSC, RF, Tomsk), Yu.G. Kopylova (National Research Tomsk Polytechnic University, RF, Tomsk)
Geochemical control methods for monitoring oil and gas fields development in Tomskneft OJSC

DOI:

Key words: chemical composition, ground water, analytical control, geochemical analysis techniques, geochemical indicators, water influx sources

The use of chemical water composition information may be considered as an additional method for water influx source determination from production well. It also allows to predict reservoir saturation in the region of infill drilling and other well activities. The solution of such reservoir management problems is achieved by means of hydrogeochemical indicators analytical control of oil-water saturated reservoirs ground salt waters. In addition, typical water types ща hydrogeological horizons of oil and gas reservoirs regions are also determined.

  References

1. 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 the oil fields development), Moscow: Nedra-Biznestsentr Publ., 2004, 220 p.
2. Reznikov A.A., Mulikovskaya E.P., Sokolov I.Yu. et al., Metody analiza prirodnykh vod (Methods of analysis of natural waters), Moscow: Nedra Publ., 1970, 488 p.
3. Kraynov S.R., Ryzhenko B.N., Shvets V.M., Geokhimiya podzemnykh vod (Teoreticheskie, prikladnye i ekologicheskie aspekty) (Groundwater geochemistry
(theoretical, applied and environmental aspects)), Moscow: Nauka Publ.,
2004, 677 p.
4. Valyashko M.G., Metody analiza rassolov i soley (Methods of analysis of salt
water and salts): edited by Morachevskiy Yu.V., Petrova E.M., Moscow: Khimiya
Publ., 1964, 404 p.
5. Alekseev V.A., Ryzhenko B.N., Shvartsev S.L., Geologicheskaya evolyutsiya i
samoorganizatsiya sistemy voda-poroda (Geological evolution and self-organization
of the water - rock system), Part 1: Sistema voda – poroda v zemnoy
kore: vzaimodeystvie, kinetika, ravnovesie, modelirovanie (System water - rock
in the crust: interaction, kinetics, balance, modeling), Novosibirsk: Publ. of SB
RAS, 2005, 244 p.
6. Goncharov I.V., Oblasov N.V., Samoylenko V.V. et al., Nedropol'zovanie XXI
vek, 2012, no. 5, pp. 50-55.
7. Pit'eva K.E., Gidrogeokhimiya: Uchebnoe. posobie (Hydrogeochemistry:
Textbook), Moscow: Publ. of MSU, 1988, 316 p.

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The oil-field equipment

V.D. Grebnev, A.N. Ladygin, M.S. Turbakov, R.V. Dvoretskas (Perm National Research Polytechnic University, RF, Perm)
Improvement of the water field preparation system for reservoir pressure maintenance

DOI:

Key words: reservoir pressure maintenance system, water field preparation, oil production problems.

For the purpose of improving and enhancing the reliability of reservoir pressure maintenance systems, reducing costs, taking into account the requirements for water quality, the system of commercial water preparation, which takes into account the creation of vacuum in the intake manifold and ensuring the movement of water on the reception of a centrifugal pump by installing a jet pump has been developed.

References
1. Ibatullin P.P., Khisametdinov M.R., Gafarov Sh.K. et al., Neftyanoe khozyaystvo – Oil Industry, 2007, no. 7, pp. 46-50.
2. Grebnev V.D., Turbakov M.S., Kozhevnikov E.V., Neftyanoe khozyaystvo – Oil Industry, 2013, no. 9, pp. 106-107.
3. Grebnev V.D., Turbakov M.S., Tret'yakov E.O., Ryabokon' E.P., Neftyanoe khozyaystvo – Oil Industry, 2013, no. 8, pp. 112-113. 

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A.F. Khairullin (BashNIPIneft LLC, RF, Ufa), V. A. Kuznetsov (Bashkir State University, RF, Ufa)
The effectiveness of nozzles for mass exchange devices

DOI:

Key words: mass transfer of a column, a nozzle, organic glass, hydraulic resistance, efficiency, turbulization.

The article presents the researches of mass-transfer processes in the column apparatus with different attachments and their results. Experiments flow of liquid and gas phases are carried out, their hydraulic resistances are set. The authors defined the lowest value of the hydraulic resistance among nozzles: from Raschig rings and corner of nozzles. After processing the results of calculation the equations are obtained which satisfactorily describe the dependence of the coefficient of resistance of the load on the gas phase (from the Reynolds number of the gas phase). Promising corner nozzles, which help to improve the efficiency of mass transfer, are developed.
References
1. Patent no. 2094113 RF, Angle-type checkerwork for mass-transfer apparatus,
Inventors: Fetisov V.I., Abdullin A.Z., Panov A.K., Bakiev A.V.
2. Patent no. 2229928 RF, Contact device for the mass-exchange apparatuses,
Inventors: Fetisov V.I., Shulaev N.S., Panov A.K., Timofeev A.A., Flid M.R.,
Timashev A.P., Abdullin A.Z.
3. Aleksandrov I.A., Rektifikatsionnye i absorbtsionnye apparaty. Metody
rascheta i osnovy konstruirovaniya (Distillation and absorption apparatus.
Calculation methods and design principles), 3rd ed., Moscow: Khimiya Publ.,
1978, 280 p.
4. Norre K., Mittelstrass M., Grundlagen der Demensionierung von Kolonnen-
Boden, Dresden: Theodor Steinbeoff, 1967, pp. 96–197.
5. Ramm V.M., Absorbtsiya gazov (Absorption of gases), 2nd ed., Moscow:
Khimiya Publ., 1976, 655 p.

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N.A. Antipina (Novomet-Perm CJSC, RF, Perm), S.N. Peshcherenko (Perm National Research Polytechnic University, RF, Perm)
Description of operating procedure of submersible hydro cyclones

DOI:

Key words: oil industry, submersible hydro cyclones, separation ratio, computational fluid dynamics

A simulation model of workflow for submersible hydro cyclones was developed. It is established that increasing of the separation ratio k with the growth of the flow rate Q is explained by the growth of centrifugal forces acting on the mechanical particles. Growth ends when large-scale vortices form in the area of the stream turning to 180 degrees as flow rate Q continues to increase. Therefore, the dependence k(Q) is non-monotonic in general. It is shown that separation ratio can be improved by changing the length of the vortex chamber through decreasing vortex formation in the area of flow turn. The criterion of hydrodynamic similarity for the submersible hydro cyclones is suggested.

References
1. Akhmetgareev R.F., Inzhenernaya praktika, 2012, no. 12.
2. Certificate of authorship no. 587242, Skvazhinnyy fil'tr (Well strainer), authors:
Timashev G.V., Kalnin O.Zh.
3. Utility patent no. 56947 RF, Fil'tr spiral'no-shchelevoy skvazhinnogo glubinnogo
nasosa (varianty) (Axial helix filter of downhole pumps (versions)): Inventors:
Zakharov B.S., Chigryay V.A., Il'yukhin V.V.
4. Antipina N.A., Kaplan A.L., Peshcherenko S.N., Burenie i neft'yu, 2011,
no. 12, pp. 39–42.
5. Sabirov A.A., Inzhenernaya praktika, 2011, no. 5, pp. 150–155.
6. Bulat A.V., Povyshenie effektivnosti raboty skvazhinnogo nasosnogo oborudovaniya za schet primeneniya separatorov mekhanicheskikh primesey (Improving the efficiency of the downhole pumping equipment through the use
of solids separators): thesis of the candidate of technical sciences, 2013.
7. Antipina N.A., Peshcherenko S.N., Nauchno-tekhnicheskie vedomosti SPbGPU. Fiziko-matematicheskie nauki – St. Petersburg State Polytechnical University Journal. Physics and Mathematics, 2012, no. 2 (146), pp. 62–68.
8. Idel'chik I.E., Spravochnik po gidravlicheskim soprotivleniyam (Handbook
of hydraulic resistance), Moscow: Mashinostroenie Publ., 1992, 672 p.
9. Aleksenskiy V.A., Zharkovskiy A.A., Pugachev P.V., Izvestiya Samarskogo
nauchnogo tsentra rossiyskoy akademii nauk, 2011, V. 13, pp. 407-410.
10. Aleksenskiy V.A., Zharkovskiy A.A., Pugachev P.V., Izvestiya Samarskogo
nauchnogo tsentra rossiyskoy akademii nauk, 2011, V. 13, pp. 411–414.
11. Svoboda D.G., Zharkovskiy A.A., Pugachev P.V., Donskoy A.S., Izvestiya
Samarskogo nauchnogo tsentra rossiyskoy akademii nauk, 2012, V. 14,
pp. 685–688.
12. Antipina N.A., Modelirovanie rabochikh protsessov v ustroystvakh zashchity
neftyanykh nasosov ot zasoreniya s tsel'yu povysheniya ikh effektivnosti
(Modeling of work processes in oil pumps protection devices from clogging
to improve their performance): thesis of the candidate of technical sciences,
2012.
13. Utility patent no. 108799 RF, Gravitatsionnyy separator dlya ochistki
skvazhinnoy zhidkosti (Gravity separator for well fluid cleaning), Inventors: Antipina
N.A., Kaplan A.L., Peshcherenko S.N. et al.
14. Utility patent no. 102057 RF, Gravitatsionnyy separator dlya ochistki
skvazhinnoy zhidkosti (Gravity separator for well fluid cleaning), Inventors: Antipina N.A., Kaplan A.L., Peshcherenko S.N. 

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Information technology

L.D. Zubova (Giprovostokneft OJSC, RF, Samara)
Impact of information technologies on the project manufacturing efficiency

DOI:

Key words: automation, complex control system, CAD, corporate portal, integration.

The problems of the impact of the level of information technologies development on the production process efficiency at Giprovostokneft OJSC are considered. The main lines of information technology development at the Institute are related to the modernization of the IT infrastructure, the creation of integrated system of design automation and the project manufacturing management based on the development of an unified information system of the enterprise.


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