June 2015


Economy, management, the legal right

V.D. Milovidov (MGIMO University, RF, Moscow)
Management of innovations: how to effectively use the information

DOI:
Key words: innovation, relative position, innovation asymmetry, terms of perception, terms of effect, exponentially scalable events.
The article discusses the role of information in the innovation process. Innovations are based on information, but also generate a flood of new information signals, which in the long term ensure the spread of innovation in society, scaling the results. In this article the author has tried to show that the institutions and mechanisms of management of innovation processes and projects are born as a result of the complex and often unconscious desire of man to reveal just such information that will give him food for thought, discovery and progress. The author sets the task to formulate rules to identify necessary for the implementation of innovative projects information signals, analysis and use in future activities. The solution to this problem is based on a clear systematization of information signals, selective working with them, as well as the formation of a proactive attitude towards information coming to man from his environment. Mastering these skills can detect exponentially scalable events that could lead to a significant and rapidly spreading in society results. Such events usually significantly stand out background information and their identification requires a hierarchical system of organization of the innovation process.
References
1. Diamond J., Guns, Germs, and Steel: The Fates of Human Societies, W.W.
Norton & Company, 1997.
2. Nietzsche F. Chelovecheskoe, slishkom chelovecheskoe: kniga dlya svobodnykh umov (Human, All Too Human: A Book for free spirit): Russian translation, St. Peterburg, 2012, 384 p.
3. Frank R.H., The Darwin Economy. Liberty, competition, and the common
good, Princeton, 2011, 240 p.
4. Schrodinger E., Chto takoe zhizn' s tochki zreniya fiziki? (What is life from the point of view of physics): Russian translation, Moscow, 2009, 176 p.
5. Schrodinger E., Moy vzglyad na mir (My view of the world): Russian translation, Moscow, 2009, 152 p.
6. Markov A., Evolyutsiya cheloveka (Evolution of Man), Part 2, Moscow, 2013, 512 p.
7. Shannon C. E, Raboty po teorii informatsii i kibernetike (Collected Works on Information Theory and Cybernetics): Russian translation, Moscow: IL, 1963, 827 p.
8. Jung K.G., Ps ikhologiya bessoznatel'nogo (Psychology of the Unconscious): Russian translation, Moscow, 2010, 352 p.
9. Given tablets but no teachers, Ethiopian children teach themselves, MIT
Technological review, October 29, 2012, URL:
http://www.technologyreview.com/news/506466/given-tablets-but-noteachers-
ethiopian-children-teach-themselves/
10. Negroponte N., EmTech preview: Another way to think about learning, MIT Technological review, September 13, 2012, URL:
http://www.technologyreview.com/view/429206/emtech-preview-anotherway-
to-think-about-learning/
11. Latour B., Reassembling the social: an introduction to actor-network-theory, Oxford; New York: Oxford University Press, 2005
12. Lebon G., Psikhologiya narodov i mass (Psychology of peoples and masses): Russian translation, Moscow, 2014, 379 p.
13. De Bono Ed., Parallel thinking (From Socratic to de Bono Thinking), London : Penguin Books Ltd, 1995.
14. Bacon F., Novaya Atlantida (New Atlantis): Russian translation, Moscow,
2014, 304 p.

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Geology and geologo-prospecting works

E.A. Lyzhin, E.A. Bulgakova, N.V. Nassonova, Lazar E.L. (TNNC LLC, RF, Tyumen)
Critical geological risks for the plays

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Key words: risk, assessment, play, trap, seal, saturation, reservoir.

The article represents the approach for risk evaluation. This approach was tested in Uvat Exploration Project, which is situated in the southern part of Tyumen State. The main factors of risk include: trap, saturation, reservoir, seal. The using of the approach allowed to improve the success of exploration and give the opportunity to control the risks.
References
1. Tarbaev B.I., Sadov S.L., Consideration of numerical characteristics uncertainty in economic evaluation of hydrocarbon promising resources (In Russ.), Geologiya nefti i gaza – The journal Oil and Gas Geology, 2006, no. 4, pp. 2-9.
2. Sadov S.L., Tarbaev B.I., Ushanov V.V. et al., Otsenka neftegazovykh
resursov s uchetom geologicheskogo i ekonomicheskogo riskov (Estimation
of oil and gas resources, taking into account the geological and economic
risks), Syktyvkar: Publ. of KSC UB RAS, 2000, 104 p.
3. Nazarov V.I., Nikitin P.B., Metodicheskie rekomendatsii po ekonomicheskoy
otsenke mestorozhdeniy nefti i gaza shel'fovykh zon i kontinental'nogo sklona
mirovogo okeana (Guidelines for economic evaluation of oil and gas filds of
offshore zone and the continental slope of the world ocean), Moscow: Publ.
of VNIGRI, 1979, 87 p.
4. Vremennaya metodika ekonomicheskoy otsenki neftyanykh i neftegazovykh mestorozhdeniy (Temporary guidelines for economic evaluation of oil and gas fields), Moscow: Publ. of VNIIOENG, 1983, 56 p.
5. Vremennaya metodika geologo-ekonomicheskoy otsenki i klassifikatsii zapasov i resursov nefti (Temporary guidelines for geological and economic
evaluation and classification of oil reserves and resources), Moscow: Publ. of
IGiRGI, VNII, VNIIOENG, 1986, 15 p.
6. Metodicheskoe rukovodstvo po kolichestvennoy i ekonomicheskoy otsenke
resursov nefti, gaza i kondensata Rossii (Methodological guidelines for
the quantitative and economic evaluation of resources of oil, gas and condensate of Russia): edited by Kleshchev K.A., Kontorovich A.E., Krylov N.A., Mironychev Yu.P., Moscow: Publ. of VNIGNI, VNIGRI, VNIIGaz, IGNG SO RAN, SNIIGGiMS, 2000, 189 p.
7. Metody geologo-ekonomicheskogo modelirovaniya resursov i zapasov
nefti i gaza s uchetom neopredelennosti i riska (Methods of geological and
economic modeling of oil and gas resources and reserves taking into account
uncertainty and ri sk), Moscow: Publ. of Geoinformtsentr, 2002, 329 p.
8. Otis R.M., Schneidermann N., A process for evaluating exploration
prospects, AAPG Bulletin, 1997, V. 81, no. 7, pp. 1087-1109.
9. Brekhuntsov A.M., Bochkarev V.S., Kharin N.V., Problems of local forecast of oil-and-gas-bearing structures of the Mesozoic-Cenozoic cover of the West Siberian geosyneclise (In Russ.), Gornye vedomosti, 2006, no. 9, pp. 6-13.
10. Kontorovich A.E., Ocherki teorii naftidogeneza (Essays on the theory
naphthide genesis), Novosibirsk: Geo Publ., 2004, 545 p.

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M.A. Belyakov, I.V. Yazynina, A.A. Abrosimov (Gubkin Russian State University of Oil and Gas, RF, Moscow)
The impact of secondary dolomitization on properties of oil and gas reservoirs

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A.N. Ivanov, V.D. Mamulina, P.T.Daс, E.V. Frolova (Research and Engineering Institute, Vietsovpetro JV, the Socialist Republic Vietnam, Vungtau)
Consistence and conditions of the Upper Oligocene deposits formation at the White Rabbit field

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E.N. Glavnova, M.A. Tugarova, Е.A. Zhukovskaja, M.A. Butorina, V.V. Zhukov (Gazpromneft NTC LLC, RF, Saint-Petersburg), K.V. Strizhnev (Gazpromneft-Angara LLC, RF, Saint-Petersburg)
Geological and geophysical characteristics and genesis of the pre-Jurassic sedimentary rocks of Urmano-Archinskaya area

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Key words: Archinskoye field, Urmanskoye field, pre- Jurassic sediments, oil reservoirs, lithogenesis, bauxites, sedimentary and epigenetic processes.

On the example of the sedimentary section of the contact of the Paleozoic and Jurassic zone of Urmano-Archinskaya area the importance of lithogenetic step process identification is discussed for the forecast of high potential zone and of oil and gas prospects in general. Pre-Jurassicsedimentary interval of Archinskoye and Urmanskoe fields contains the supergene altered Paleozoic limestones altered by weathering and overlying redeposited laterites. The rocks have a complex composition; they are ambiguous in the genetic interpretation and prediction of reservoir properties. However, a wide range of oil and gas exploration and production problems - from hydrocarbon sources to forecast the quality of reservoirs, their irregularities and localization of traps is associated with this interval of the sedimentary section. On the basis of geological, geophysical data and detailed lithological characteristics the problems concerned to the lithogenesis of contact Paleozoic - Mesozoic zone as the basis of the forecast distribution and variability properties of the productive horizon are discussed.
References
1. Koveshnikov A.E., Nedolivko N.M., Weathering rocks of Pre-Jurassic rocks of Western Siberian geosyneclise (In Russ.), Izvestiya Tomskogo politekhnicheskogo universiteta = Bulletin of the Tomsk Polytechnic University, 2012, V. 320, no. 1, pp. 77-81.
2. Koveshnikov A.E., Nedolivko N.M., Secondary catagenetic transformations
of of Pre-Jurassic rocks of Western Siberian geosyneclise (In Russ.), Izvestiya
Tomskogo politekhnicheskogo universiteta = Bulletin of the Tomsk Polytechnic University, 2012, V. 320, no. 1, pp.. 82-86.
3. Ezhova A.V., Aluminous and ferriferous rocks of the productive strata in the South-East of Western Siberian oil-and-gas province (Tomsk region) (In Russ.), Izvestiya Tomskogo politekhnicheskogo universiteta = Bulletin of the Tomsk Polytechnic University, 2012, V. 321, no. 1, pp. 111-121.
4. Kuzina M.A., Korzhov Yu.V., I saev V.I., Geochemical and lithological justification of «The Main Source» concept of Pre-Jurassic oil deposits in Krasnoleninsk arch (Tyumen region) (In Russ.), Izvestiya Tomskogo politekhnicheskogo universiteta = Bulletin of the Tomsk Polytechnic University, 2014, V. 324, no. 1, pp. 32 – 38.
5. Shibistov B.V., Zakonomernosti formirovaniya i razmeshcheniya kontinental'nykh boksitov (Regularities of formation and distribution of continental bauxite): thesis of doctor of technical science, Tomsk, 2002.
6. Butorina M.A., Glavnova E.N., Dmitruk D.N. et al., Geological and reserve
development peculiarities of Archinskoye field (In Russ.), Neftyanoe
khozyaystvo = Oil Industry, 2014, no. 2, pp. 109-113.
7. Yudovich Ya.E., Ketris M.P., Geokhimicheskie i mineralogicheskie indikatory vulkanogennykh produktov v osadochnykh tolshchakh (Geochemical and mineralogical indicators of volcanogenic products in sedimentary sequences), Ekaterinburg: Publ. of UB RAS, 2009, 412 p.
8. Zapivalov N.P., Isaev G.D., Criteria of estimation of oil-and-gas-bearing
Palaeozoic deposits of Western Siberia (In Russ.), Vestnik Tomskogo gosudarstvennogo universiteta, 2010, V. 341, pp. 226-232.
9. Kurbala E.L., Oil and gas reservoirs in the carbonate weathering crust
(In Russ.) Geologiya nefti i gaza = The journal Oil and Gas Geology, 1990,
no. 1, pp. 29 - 32.
10. Samoylov A.G., Kopylov A.V., Lomaev V.G., Siberian bauxites and potentialities of their use for alumina production (In Russ.), Mineral'nye resursy Rossii. Ekonomika i upravlenie, 2006, no. 6, pp. 8-12.
11. Isaev G.D., Stratification and structure of rocks of the Mesozoic-Palaeozoic contact zone (In Russ.), Vestnik Tomskogo gosudarstvennogo universiteta, 2010, V. 331, pp. 203-209.
12. Bazhenov V.A., Babanskaya I.V., Bauxites of Paleozoic basement of the
West Siberian platform(In Russ.), Geologiya i geofizika = Russian Geology and Geophysics, 1991, no. 1, pp. 101-107.
13. Frolov V.T., Lithology. Part 1, Moscow: Publ. of MSU, 1992, 336 p.
14. Yudovich Ya.E., Reflections on infiltration epigenesis (In Russ.), Izvestiya
Tomskogo politekhnicheskogo universiteta = Bulletin of the Tomsk Polytechnic University, 2008, V. 312, no. 1, pp. 4-10.

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P.X. Son, A.N. Ivanov, V.Yu. Kholodilov, E.V. Frolova (Research and Engineering Institute, Vietsovpetro JV, the Socialist Republic Vietnam, Vungtau)
The comprehensive approach for exploration drilling planning

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Key words: supplementary exploration, seismic attributes, seismofacial analysis, core and wireline logs data integration, petroleum system modeling

This paper presents the results of the complex approach application in geological prospecting objectives in common, and in exploration drilling planning in the Vietnam offshore (block 09-1) in particular (as the example). Due to increased interest to non-structural geological traps, the various seismic interpretation and analysis techniques had been introduced, like the advanced seismic attributes, seismic facies analysis. Besides the detailed geological data, like core and wireline data integration is also in the field of interest of the current investigation. As the result, the 3D generation model of the Cuu Long petroleum system had been introduced. So, an integrated approach, detailed analysis and systematization of geological and geophysical data allows to determine the further competent strategy of the geological prospecting objectives and to select the areas of interest for the subsequently exploration drilling. This approach had been hold in 2012-2014 yrs., and was introduced in 2014. As the result, the local structures were found out and successfully drilled with the exploration drilling. A number of these areas led to a great success and significant contribution to the hydrocarbon reserves balance enhancement.
References
1. Topychkanova E.B., Mataev A.V., The role of seismic facies analysis in the identification of Neocomian lithologic deposits according to the 3D spatial shooting data, Neftyanoe khozyaystvo = Oil Industry, 2011, no. 9, pp. 87-89.
2. Cosentino L., Integrated reservoir studies, Paris: TECHNIP ed., 2001, 400 p.
3. Merkulov V.P., Krasnoshchekova L.A., Study of the spatial lithologic and
petrophysical heterogeneity of oil and gas productive reservoirs (In Russ.),
Izvestiya Tomskogo politekhnicheskogo universiteta = Bulletin of the Tomsk
Polytechnic University, 2002, V. 305, no. 6, pp. 296-304.
4. Belozerov V.B., A role of sedimentary models in electric facies analysis of
terrigenous deposits (In Russ.), Izvestiya Tomskogo politekhnicheskogo universiteta = Bulletin of the Tomsk Polytechnic University, 2011, V. 319, no. 1, pp. 116-123.

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Drilling of chinks

A.Sh. Yanturin, Yu.G. Matveev, F.Z. Bulyukova (Ufa State Petroleum Technological University, RF, Ufa), R.A. Yanturin (Rostneftekhim CJSC, RF, Ufa)
About narrowing wells and the stresses on the walls casing and drill strings at elastic-plastic deformation of rocks

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F.I. Plekhanov, A.S. Tonkikh (Glazov Engineering and Economical Institute (branch) of Kalashnikov Izhevsk State Technical University, RF, Glazov), E.F. Viechuzhanina (Kalashnikov Izhevsk State Technical University, RF, Izhevsk)
Planetary gear rigs: design features and technical –economic indicators

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Working out and operation of oil deposits

A.S. Kutovoy, A.N. Ivanov, Ho Nam Trung, Dao Nguyen Hung (Research and Engineering Institute, Vietsovpetro JV, the Socialist Republic Vietnam, Vungtau)
Sea water injection impact on oil mobility in high-temperature reservoirs of the White Tiger field

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K.Yu. Murinov, K.G. Russkikh, I.I. Zaynullin, R.R. Zagirov, A.T. Arslanov (BashNIPIneft LLC, RF, Ufa), A.V. Zaynulin (Bashneft JSOC, RF, Ufa)
Physical modeling of oil displacement by water from complex D1op reservoirs using radiographic analysis

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Key words: reservoir properties, complex reservoirs, microinhomogeneity, displacement efficiency, residual oil saturation (ROS).

The study of oil displacement from complex reservoirs has to consider the void space morphology. The experiments of oil displacement by using the radiographic analysis of determining the fluid saturation help the detailed study of oil recovery in complex reservoirs.


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M.V. Chertenkov, D.A. Mett (LUKOIL – Engineering LLC, RF, Moscow)
Experience of geomechanical model creation for forecast of the hydraulic fracturing direction for Uryevskoye field

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R.S. Khisamov (Tatneft OAO, RF, Almetyevsk), O.V. Salimov (TatNIPIneft, RF, Bugulma), G.A. Borisov (PSK Garant, RF, Novosibirsk), V.G. Salimov (Nauka OOO, RF, Bugulma)
Experimental study of acid fracture conductivity as a function of confining stress

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A.S. Ushakova, V.V. Zatsepin (Zarubezhneft JSC, RF, Moscow)
In-situ combustion ignition for low permeability reservoir

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D.G. Yarakhanova (Kazan (Volga Region) Federal University, RF, Kazan)
The feasibility of application of horizontal oil recovery technologies taking into account the geological and technological conditions

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A.A. Zemlyanoy, S.L. Golofast (Tyumen State Oil and Gas University, RF, Tyumen), A.V. Trifonov, A.V. Belov, Ye.N. Kozlov (Gazpromneft Novy Port LLC, RF, Tyumen)
Research of the filtration process waterproofing compounds in permeable foundation

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A.A. Bayda, S.G. Agayev (Tyumen State oil and gas University, RF, Tyumen)
Oil displacement by micellar systems on the vertical model of reservoir

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Technics and technology of oil recovery

G.I. Boyko, G.S. Aitkaliyeva, Ye.M. Shaikhutdinov (Satpayev Kazakh National Technical University, Kazakhstan, Almaty), N.P. Lubchenko, T.P. Maimakov (Higher education institution UNAT, Kazakhstan Almaty), K.M. Kassymgaliyev (National Company KazMunayGas JSC, Kazakhstan, Astana), R.G. Sarmurzina (EmbaMunayGas JSC, Kazakhstan, Atyrau), U.S. Karabalin (Association KazEnergy, Astana) Kazakhstan.
Research of composition of ARPD and oil of Kumkol oilfield by methods of thermal and IR-spectroscopy analysis

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A.V. Oshibkov, D.D. Vodorezov, K.V. Syzrantseva, S.A. Frolov, M.V. Dvoynikov, V.N. Svetashov (Tyumen State Oil and Gas University, RF, Tyumen), D.L. Bakirov (KogalymNIPIneft Branch of LUKOIL-Engineering LLC in Tyumen, RF, Tyumen)
The stress-strain condition estimation of construction of multilateral well junction

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Designing of arrangement of deposits

I.A. Shcherbinin, I.Z. Fakhretdinov, S.S. Ivanov, I.A. Zholobov (Giprotyumenneftegaz, HMS Group, RF, Tyumen)
Giprotyumenneftegaz engineering solutions for construction of oil and gas industrial facilities in permafrost areas (part 2)

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The oil-field equipment

M.P. Peshcherenko, D.N. Lebedev (Novomet-Perm AO, RF, Perm), S.N. Peshcherenko (Perm National Research Polytechnic University, RF, Perm)
Downhole ball-type flow meter

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Transport and oil preparation

S.E. Kutukov, L.D. Nabieva, A.R. Atnagulov (BashNIPIneft LLC, RF, Ufa), K.A. Kozlov (Bashneft JSOC, RF, Ufa), A.V. Larin, A.G. Pavlukov (Bashneft-Polus LLC, RF, Ufa)
Disturbances in gathering system of R. Trebs oilfield

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А.А. Аfinogentov, V.N. Degtyarev, A.V. Pimenov (Samara State Technical University, RF, Samara)
Hydrodynamic analysis of trunk oil pipelines

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Key words: mathematical simulation, object with distributed parameters, boundary problem, petroleum and petrochemical products transportation in trunk pipelines.

The mathematical model describing non-stationary movement of the trunk oil pipelines is considered. The analysis of starting operating modes of the oil pipeline is made. The area of the maximum values of amplitude of shock pressure on length of the pipeline is established.
References
1. Abramzon L.S., About the possible mechanisms of pressure propagation in
pipes with a fixed oil (In Russ.), Neftyanoe khozyaystvo = Oil Industry, 1968, no. 9, pp. 12-14.
2. Degtyarev V.N., Issues the start of oil pipeline with paraffin after its long stop (In Russ.), Transport i khranenie nefti i nefteproduktov, 1982, V. 17, p. 61.
3. Charnyy I.A., Neustanovivsheesya dvizhenie real'noy zhidkosti v trubakh
(Unsteady flow of a real fluid in pipes), Moscow: Nedra Publ., 1975, 296 p.
4. Afinogentov A.A., Pleshivtseva Yu.E., Snopkov A.S., Mathematical simulation of controllable hydrodynamic processes of petroleum and petrochemical products transportation in trunk pipelines (In Russ.), Vestnik Samarskogo Gosudarstvennogo Tekhnicheskogo Universiteta. Seriya: Tekhnicheskie nauki, 2010, V. 7(28), pp. 137-144.
5. Wilkinson W.L., Non-Newtonian fluids, London: Pergamon, 1960.
6. Davidson M.R., Nguyen Q.D., Chang C., Rnningsen H.P., A model for
restart of a pipeline with compressible gelled waxy crude oil, Journal of Non-
Newtonian Fluid Mechanics, 2004, V. 123, no. 2-3, pp. 269–280.

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A.G. Akhmadeev, Tong Canh Son, S.A. Ivanov (Research and Engineering Institute, Vietsovpetro JV, the Socialist Republic Vietnam, Vungtau)
Comprehensive approach to provide high-paraffin oil transportation from the offshore fields

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Ecological and industrial safety

A.Yu. Solodovnikov, A.A. Khattu (Tyumen Branch of SurgutNIPIneft, RF, Surgut)
The ecological condition of the enviroment of Nadym territory – Soloir minefield group

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From history of development of petroleum industry