November 2019 |
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OIL & GAS COMPANIES |
A.S. Isakov (Rosneft Oil Company, RF, Moscow), E.M. Liron (Rosneft Oil Company, RF, Moscow), D.A. Lunin (Rosneft Oil Company, RF, Moscow), A.N. Khoroshev (Rosneft Oil Company, RF, Moscow) Development of oilfield services market: successful practice of Rosneft Oil Company DOI: 10.24887/0028-2448-2019-11-8-12
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GEOLOGY & GEOLOGICAL EXPLORATION |
M.A. Basyrov (Rosneft Oil Company, RF, Moscow), A.V. Khabarov (Tyumen Petroleum Research Center LLC, RF, Tyumen), I.A. Khanafin (Bashneft-Petrotest LLC, RF, Ufa), R.R. Nugumanov (Bashneft-Petrotest LLC, RF, Ufa), E.V. Gadelshin (Bashneft-Petrotest LLC, RF, Ufa), E.R. Nugumanov (RN-BashNIPIneft LLC, RF, Ufa), R.K. Gazizov (RN-BashNIPIneft LLC, RF, Ufa) Advanced technologies of well logging and data analysis DOI: 10.24887/0028-2448-2019-11-13-17
The concept of developing a corporate software package for interpreting logging data and an integration enterprise service bus is presented. The importance of a single corporate platform is described both for the convenience of using incoming information in a single software field, and from the point of view of information security and independence of the Company. The main directions of perspective development and the distinctive features of petrophysical software are con Login or register before ordering |
D.V. Nazarov (RN-KrasnoyarskNIPIneft LLC, RF, Krasnoyarsk), D.A. Lokshin (RN-KrasnoyarskNIPIneft LLC, RF, Krasnoyarsk), V.G. Volkov (RN-KrasnoyarskNIPIneft LLC, RF, Krasnoyarsk), V.A. Kolesov (IGiRGI JSC, RF, Moscow), V.M. Yatsenko (Rosneft Oil Company, RF, Moscow), V.M. Kiselev (Siberian Federal University, RF, Krasnoyarsk) Defining the cavernosity level for the complex Vendian-Cambrian carbonates using the standard well logging methods DOI: 10.24887/0028-2448-2019-11-18-22
10. Filatov D.A., Kolesov V.A., Krasil'nikova N.B., Isaeva V.V., Features of the petrophysical model of carbonate reservoirs at Irkutsk license areas (In Russ.), Neftyanoe khozyaystvo = Oil Industry, 2013, no. 10, pp. 42–45. Login or register before ordering |
N.M. Kutukova (Rosneft Oil Company, RF, Moscow), V.L. Shuster (Oil and Gas Research Institute of RAS, RF, Moscow), M.V. Pankov (Vostsibneftegas PJSC, RF, Krasnoyarsk), N.B. Krasilnikova (RN-KrasnoyarskNIPIneft LLC, RF, Krasnoyarsk), A.A. Osipenko (RN-KrasnoyarskNIPIneft LLC, RF, Krasnoyarsk) Integrated approach to the modeling of the carbonate reservoir with complicated trap structure in Eastern Siberia DOI: 10.24887/0028-2448-2019-11-23-27
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OFFSHORE DEVELOPMENT |
A.V. Gavrilov (Lomonosov Moscow State University, RF, Moscow, Russia; Foundation National Intellectual Resource, RF, Moscow, Russia), V.A. Pavlov (Rosneft Oil Company, RF, Moscow), A.I. Fridenberg (Rosneft Oil Company, RF, Moscow), M.L. Boldyrev (Arctic Research Center LLC, RF, Moscow), V.Z. Khilimonyuk (Lomonosov Moscow State University, RF, Moscow, Russia; Foundation National Intellectual Resource, RF, Moscow, Russia), E.I. Pizhankova (Lomonosov Moscow State University, RF, Moscow, Russia; Foundation National Intellectual Resource, RF, Moscow, Russia), S.N. Buldovich (Lomonosov Moscow State University, RF, Moscow, Russia; Foundation National Intellectual Resource, RF, Moscow, Russia), N.I. Kosevich (Lomonosov Moscow State University, RF, Moscow, Russia; Foundation National Intellectual Resource, RF, Moscow, Russia), A.R. Alyautdinov (Lomonosov Moscow State University, RF, Moscow, Russia; Foundation National Intellectual Resource, RF, Moscow, Russia) The geocryological mapping of the Kara Sea shelf: methodology and results DOI: 10.24887/0028-2448-2019-11-28-32
12. Levitan M.A., Advection of Atlantic waters to the Arctic in Quaternary (In Russ.), Geologiya i geoekologiya kontinental'nykh okrain Evrazii, 2009, no. 1, Moscow: GEOS Publ., 2009, pp. 54–63. Login or register before ordering |
WELL DRILLING |
M.A. Golovchenko (Rosneft Oil Company, RF, Moscow), A.V. Miroshnichenko (Rosneft Oil Company, RF, Moscow), K.V. Kudashov (Rosneft Oil Company, RF, Moscow), V.P. Filimonov (Rosneft Oil Company, RF, Moscow) Method for determining the geosteering difficulty index of wells and their classification DOI: 10.24887/0028-2448-2019-11-33-37
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OIL FIELD DEVELOPMENT & EXPLOITATION |
A.F. Azbukhanov (RN-BashNIPIneft LLC, RF, Ufa), I.V. Kostrigin (RN-BashNIPIneft LLC, RF, Ufa), K.A. Bondarenko (RN-BashNIPIneft LLC, RF, Ufa), M.N. Semenova (RN-BashNIPIneft LLC, RF, Ufa), I.A. Sereda (Rosneft Oil Company, RF, Moscow), D.R. Yulmukhametov (Rosneft Oil Company, RF, Moscow) Selection of wells for hydraulic fracturing based on mathematical modeling using machine learning methods DOI: 10.24887/0028-2448-2019-11-38-42
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FIELD INFRASTRUCTURE DEVELOPMENT |
E.S. Golovina (Samaraneftekhimproject JSC, RF, Samara), A.S. Laskin (Samaraneftekhimproject JSC, RF, Samara), M.V. Nikiforov (VNIPIneft JSC, RF, Moscow), E.A. Mashkovtsev (VNIPIneft JSC, RF, Moscow), P.A. Bulanov (Rosneft Oil Company, RF, Moscow) Application of laser scanning technology at capital construction facilities DOI: 10.24887/0028-2448-2019-11-43-45 The article describes application of currently
widely distributed technology of laser scanning during geometric control and
construction supervision at various stages of facility construction. Surface
laser scanning was used for two process units of Rosneft Oil Compant refineries
by specialists of Company’s design institutes – VNIPIneft JSC and
Samareneftekhimproekt JSC. Results of surface laser scanning were prepared in
specialized software and then compared with 3D design model of the facility;
deviation chart was prepared based on the comparison in addition to visual
analysis. It is notable that the chart shall be prepared on the basis of
received data in computer-aided mode. Applied approach gives an opportunity to
use surface laser scanning as mandatory element of construction supervision
together with designer supervision in key points of facility construction.
Deviation analysis gives an opportunity to estimate availability of deviations
from design solutions, availability of more serious violations of design
decisions, fact of maintaining required levels at constructed facility.
Analysis results give an opportunity to provide specific instructions to
originators at the facility to incorporate changes already at the construction
stage. Successful implementation of projects on comparative analysis of 3D
model and changed data in the form of a point cloud allows to apply safely
surface laser scanning technology for supervision of oil and gas industry
facilities construction. This type of work is required to reveal discrepancies
and incompliance of facilities. It allows to decrease considerably time for
gathering, analysis and provision of a result. Correctly structured process of
work execution almost eliminates human factor considerably influencing final result.
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N.G. Gilev (Rosneft-NTC, RF, Krasnodar), E.V. Zenkov (Rosneft-NTC, RF, Krasnodar), U.S. Poverenniy (Rosneft-NTC, RF, Krasnodar), A.D. Dubrov (Rosneft-NTC, RF, Krasnodar), D.A. Kuzmin (Rosneft-NTC, RF, Krasnodar), A.S. Melentev (Rosneft-NTC, RF, Krasnodar), V.A. Pavlov (Rosneft Oil Company, RF, Moscow), N.N. Berdnikov (Rosneft Oil Company, RF, Moscow) Optimization of capital costs for pile foundations during construction of oil and gas production facilities on permafrost soils DOI: 10.24887/0028-2448-2019-11-46-49 The problem of finding optimal and economically
justified solutions for pile foundations during construction of oil and gas
production facilities on permafrost soils is becoming increasingly urgent in
connection with the development of fields in Western and Eastern Siberia.
Taking into account requirements of the specifications and technical
documentation and also experience of design the bases are applied mainly pile
with a high grillage, as much as possible limiting transfer of heat from constructions
in their basis. In this article we considered the applied technique of
technical and economic comparison of versions of the device of the pile
foundations constructed according the 1 principle of Construction Standards and
Regulations 25.13330.2012 when saving soil of the basis in a frozen status in
the course of construction and during the entire period of operation of a
construction. When defrosting frozen soil loses the integrity, structure and
strength properties, there is an uneven draft, watering and further development
of negative cryogenic processes. A solution is presented for a technical and
economic comparison of the options for installing pile foundations with and
without soil thermal stabilization (STS) systems directly at a design stage of
the bases. Application of soil thermal stabilization, allows to reduce
considerably length and (or) diameter of piles, and sometimes even to reduce
quantity of piles in a grillage when saving necessary bearing capacity of
piles. At the same time application of STS is not always reasonable since
reduction of length of piles at the STS installation can be insignificant while
application of the cooling systems demands additional capital expenditure and
increases duration of installation and construction works. The right choice
will provide not only economic effect, but also will ensure reliability and
safety of operation of designed projects.
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INFORMATION TECHNOLOGIES |
M.I. Saakyan (Rosneft Oil Company, RF, Moscow), K.E. Zakrevskiy (Rosneft Oil Company, RF, Moscow), R.K. Gazizov (RN-BashNIPIneft LLC, RF, Ufa), A.E. Lepilin (RN-BashNIPIneft LLC, RF, Ufa), E.A. Ryzhikov (RN-BashNIPIneft LLC, RF, Ufa) The prospects of corporate geological modeling software creation DOI: 10.24887/0028-2448-2019-11-50-54
15. Badpa A., Salim J., Yahaya J. et al., The effect of KMS usage on organizational performance in oil and gas industry: An empirical study in the context of developing economy, International Journal of Trend in Research and Development (IJTRD), 2018, V. 5, http://www.ijtrd.com/ViewFullText.aspx?Id=15819. Login or register before ordering |
V.V. Kireev (Rosneft Oil Company, RF, Moscow), E.Yu. Pilipets (Rosneft Oil Company, RF, Moscow), R.Ya. Gazimov (Rosneft Oil Company, RF, Moscow) Rosneft’s information system DRILLING DOI: 10.24887/0028-2448-2019-11-55-57 Nowadays it is difficult to imagine a modern company
that does not employ IT-systems in the operating activities. The information
systems are the inherent and substantial part of the infrastructure in any
company. They are utilized to automate data acquisition, exchange, and storage
processes that allow receiving on-line data without involving extra labour forces.
Modern information systems are no longer act as trivial systems intended to
execute simple arithmetical and logical tasks but complicate business processes
planning and management systems. At the same time, IT-systems do not make
management decisions by itself instead allow to constitute and present required
data to help management teams to come up with weighted solutions. Rosneft Oil
Company is not an exception, it strives to employ and develop IT-systems in its
multifunctional operating activities, especially while global digitalization.
Company Upstream intensively uses originally developed information system in
oil and gas well construction business operations for planning, designing,
managing and control. Rosneft Oil Company has ambitious plans for expand and
develop new original information systems and modules. These plans
implementation will allow keeping Company’s leading position in well
construction business not only when counting footage and number of wells but in
the development of information systems for acquisition and processing a big data
volume.
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T.A. Pospelova (Tyumen Petroleum Research Center LLC, RF, Tyumen), A.V. Arzhilovskiy (Tyumen Petroleum Research Center LLC, RF, Tyumen), A.N. Kharitonov (Tyumen Petroleum Research Center LLC, RF, Tyumen), A.Yu. Yushkov (Tyumen Petroleum Research Center LLC, RF, Tyumen), A.V. Strekalov (Tyumen Petroleum Research Center LLC, RF, Tyumen), R.R .Lopatin (Tyumen Petroleum Research Center LLC, RF, Tyumen), O.A. Loznyuk (Rosneft Oil Company, RF, Moscow), Yu.A. Arkhipov (Rosneft Oil Company, RF, Moscow) The concept of gas and gas-condensate fields intellectualization DOI: 10.24887/0028-2448-2019-11-58-63
7. Serykh T., Tsifrovizatsiya razvedki i dobychi Rosneft (Exploration and production digitalization in Rosneft), Proceedings of III conference “Tekhnologii v oblasti razvedki i dobychi nefti” (Oil Exploration and Technology), Moscow: Publ. of Rosneft OJSC, 2017. Login or register before ordering |
OIL FIELD EQUIPMENT |
D.A. Minchenko (Rosneft Oil Company, RF, Moscow), S.B. Yakimov (Rosneft Oil Company, RF, Moscow), A.B. Noskov (Rosneft Oil Company, RF, Moscow), D.A. Kosilov (Rosneft Oil Company, RF, Moscow), V.N. Ivanovskiy (Gubkin University, RF, Moscow), A.A. Sabirov (Gubkin University, RF, Moscow), A.V. Bulat (Gubkin University, RF, Moscow), A.R. Garifullin (RN-BashNIPIneft LLC, RF, Ufa), A.S. Topolnikov (RN-BashNIPIneft LLC, RF, Ufa) Project of introduction of gas separators of electrical submersible pumps with lower power consumption: preparation and start of implementation DOI: 10.24887/0028-2448-2019-11-64-67
7. Gerasimov V.V., Highly reliable equipment for work in difficult conditions (In Russ.), Inzhenernaya praktika, 2012, no. 2 , pp. 18–25. Login or register before ordering |
ENVIRONMENTAL & INDUSTRIAL SAFETY |
V.A. Kulagin (Rosneft Oil Company, RF, Moscow), I.S. Sivokon (Rosneft Oil Company, RF, Moscow), E.S. Pronina (Rosneft Oil Company, RF, Moscow), M.V. Anfimov (Rosneft Oil Company, RF, Moscow), S.N. Petryaev (Rosneft Oil Company, RF, Moscow) Experience of introducing PSER indicators as a tool to manage process safety DOI: 10.24887/0028-2448-2019-11-68-71
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News of the companies |
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INFORMATION |
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GEOLOGY & GEOLOGICAL EXPLORATION |
A.P. Kondakov (Tyumen Branch of SurgutNIPIneft, Surgutneftegas PJSC, RF, Tyumen), S.V. Shadrina (Tyumen Branch of SurgutNIPIneft, Surgutneftegas PJSC, RF, Tyumen) Structure and petroleum potential of the Pre-Jurassic basement of the Western Siberia DOI: 10.24887/0028-2448-2019-11-78-81
15. Kireev F.A., Granity i ikh neftegazonosnost' (Granites and their oil and gas potential), Collected papers “Degazatsiya Zemli i genezis neftegazonosnykh mestorozhdeniy” (Earth degassing and the genesis of oil and gas fields), Moscow: GEOS Publ., 2011, pp. 442–455. Login or register before ordering |
E.B. Avramenko (Tyumen Petroleum Research Center LLC, RF, Tyumen), M.A. Grishchenko (Tyumen Petroleum Research Center LLC, RF, Tyumen), I.O. Oshnyakov (Tyumen Petroleum Research Center LLC, RF, Tyumen), A.I. Kudamanov (Tyumen Petroleum Research Center LLC, RF, Tyumen) Conceptual geological model of Turonian sediments on the example of the Kharampurskoye field in Western Siberia DOI: 10.24887/0028-2448-2019-11-82-87
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V.A. Klimenko (NPF Geofizika JSC, RF, Ufa), T.R. Salahov (NPF Geofizika JSC, RF, Ufa), D.R. Shakurov (NPF Geofizika JSC, RF, Ufa), A.A. Popov (Bashneftegeofizika JSC, RF, Ufa) Russian multisonde laterolog tool for reservoir determination and estimation of oil saturation DOI: 10.24887/0028-2448-2019-11-88-93
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K.S. Reytyukhov (SamaraNIPIneft LLC, RF, Samara), M.N. Fedotov (Rosneft Oil Company, RF, Moscow), S.P. Papukhin (Samaraneftegas JSC, RF, Samara), R.F. Atnabaev (SPC Geostra LLC, RF, Ufa) Advantages of seismic data special processing using the common reflection surface method at license areas of Samaraneftegas JSC DOI: 10.24887/0028-2448-2019-11-94-97
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K.O. Iskaziev (National Company KazMunayGas JSC, Kazakhstan, Astana), L.A. Ulitina (Gubkin University, RF, Moscow), D.O. Almazov (Gubkin University, RF, Moscow), U.V. Lyapunov (Gubkin University, RF, Moscow Seismofacies modelling for the Lower Permian carbonate deposits in the Cyganovsko-Ulyanovskoye and Tokarevskoye fields DOI: 10.24887/0028-2448-2019-11-98-102
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E.N. Taraskin (Sittec JSC, RF, Ukhta), P.V. Piatibratov (Gubkin University, RF, Moscow), S.O. Ursegov (Skolkovo Institute of Science and Technology, RF, Moscow) New schemes of steam assisted gravity drainage for thick reservoirs with heavy and highly viscous oil DOI: 10.24887/0028-2448-2019-11-103-107
8. Patent no. RU2368767C1, High-viscous and heavy oil field development method with thermal action, Inventors: Abdulmazitov R.G., Ramazanov R.G., Strakhov D.V., Ziyatdinov R.Z., Osnos V.B. Login or register before ordering |
OIL FIELD DEVELOPMENT & EXPLOITATION |
A.I. Yushmanov (VNIIneft JSC, RF, Moscow), T.S. Baranov (VNIIneft JSC, RF, Moscow), V.S. Zhuk (VNIIneft JSC, RF, Moscow), A.G. Kolyagin (Zarubezhneft JSC, RF, Moscow) Oil production prospects in the depleted fields of the Fergana Valley DOI: 10.24887/0028-2448-2019-11-108-110
Based on the data collected, well history has been reconstructed; data included production, design and workovers. Perophysical evaluation of digitized well logs and local reinterpretation of available 3D seismic data has been performed. Together with well test data and production history, it allowed to determined missed pay zones and potential exploration targets. As a result a field development scenario has been prepared that indicates that production could be raised four times and that leads to a new level of project’s economics. Collection and analysis of well data form 1950’s-1970’s is ongoing. All initial information and firstly well logs are still being analyzed. Different probabilistic scenarios are being made for geological features in order to estimate potential target areas, evaluate residual reserves and resources. All this information is being arranged into a uniform database that can definitively revitalize mature fields of Fergana Valley. Login or register before ordering |
Yu.A. Kashnikov (Perm National Research Polytechnic University, RF, Perm), S.Yu. Yakimov (Perm National Research Polytechnic University, RF, Perm) Geomechanical and hydrodynamic estimation of the bottom-hole pressure influence on the well performance DOI: 10.24887/0028-2448-2019-11-111-115
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M.Kh. Musabirov (TatNIPIneft, RF, Bugulma), A.Yu. Dmitrieva (TatNIPIneft, RF, Bugulma), R.F. Khusainov (Technology Development Centre of Tatneft PJSC, RF, Almetyevsk), E.M. Abusalimov (Technology Development Centre of Tatneft PJSC, RF, Almetyevsk), B.G. Ganiev (Tatneft PJSC, RF, Almetyevsk), F.Z. Ismagilov (Tatneft PJSC, RF, Almetyevsk) Efficiency improvement of foam-acid treatments and selective large-volume acidizing at carbonate reservoirs of Tatneft PJSC DOI: 10.24887/0028-2448-2019-11-116-119
7. Patent no. 2570179 RF, MPK E 21 V 43/27, E 21 V 33/138, Method of interval-by-interval treatment of producing formation with open horizontal borehole, Inventors: Musabirov M.Kh., Ismagilov F.Z., Khannanov R.G., Abusalimov E.M., Daminov A.M., Musabirova N.M. Login or register before ordering |
I.S. Zakirov (Almetyevsk State Oil Institute, RF, Almetyevsk), E.F. Zakharova (Almetyevsk State Oil Institute, RF, Almetyevsk), A.A. Lutfullin (Tatneft PJSC, RF, Almetyevsk), E.M. Abusalimov (Tatneft PJSC, RF, Almetyevsk), A.G. Telin (Ufa SciTechCenter LLC, RF, Ufa), A.A. Mamykin (Ufa SciTechCenter LLC, RF, Ufa), N.A. Sergeeva (Ufa SciTechCenter LLC, RF, Ufa), S.L. Volfovich (Ufa SciTechCenter LLC, RF, Ufa) Study of physicochemical properties and development of formulations of acid compositions for intensifying the influx of oil from Domanic deposits DOI: 10.24887/0028-2448-2019-11-120-123
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OIL RECOVERY TECHNIQUES & TECHNOLOGY |
A.E. Folomeev (RN-BashNIPIneft LLC, RF, Ufa), I.S. Davidenko (Sorovskneft LLC, RF, Tyumen), S.A. Vakhrushev (RN-BashNIPIneft LLC, RF, Ufa), F.K. Mingalishev (RN-BashNIPIneft LLC, RF, Ufa), A.R. Sharifullin (RN-BashNIPIneft LLC, RF, Ufa), R.A. Faizov (Bashneft-Dobycha LLC, RF, Ufa), R.K. Razyapov (Sorovskneft LLC, RF, Tyumen) Adaptation of the technology for bottom-hole zones treatment under conditions of scaling at the Sorovskoye field DOI: 10.24887/0028-2448-2019-11-124-129
8. Voloshin A.I., Gusakov V.N., Fakhreeva A.V., Dokichev V.A., Scaling prevention inhibitors in oil production (In Russ.), Neftepromyslovoe delo, 2018, no. 11, pp. 60–72. Login or register before ordering |
M.V. Îmelyanyuk (Kuban State Technological University, RF, Armavir), I.A. Ðakhlyan (Kuban State Technological University, RF, Armavir) Technological application of cavitating jet streams in the oil and gas industry DOI: 10.24887/0028-2448-2019-11-130-133
10. Patent no. RU2676071C1, Device for cleaning internal surfaces, Inventors: Omel'yanyuk M.V., Pakhlyan I.A. Login or register before ordering |
V.V. Belozerov (BashNIPIneft LLC, RF, Ufa; Ufa State Petroleum Technical University, RF, Ufa) R.U. Rabaev (Ufa State Petroleum Technical University, RF, Ufa), V.A. Molchanova (Ufa State Petroleum Technical University, RF, Ufa) Efficiency research of the reducing the gas pressure in the annulus DOI: 10.24887/0028-2448-2019-11-134-138
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OIL TRANSPORTATION & TREATMENT |
Z.Z. Sharafutdinov (The Pipeline Transport Institute LLC, RF, Moscow), S.F. Urmancheev (Mavlyutov Institute of Mechanics, Ufa Federal Research Centre of RAS, RF, Ufa), I.R. Islamov (The Pipeline Transport Institute LLC, RF, Moscow) Pipeline borehole pulling in complicated mining and geological conditions of construction DOI: 10.24887/0028-2448-2019-11-139-143
6. Vafin D.R., Sapsay A.N., Shatalov D.A., Technical and economic limits to the application of the horizontal direction drilling method in the construction of underwater transitions of main pipelines (In Russ.), Nauka i tehnologii truboprovodnogo transporta nefti i nefteproduktov = Science & Technologies: Oil and Oil Products Pipeline Transportation, 2017, V. 7, no. 3, pp. 66–73. Login or register before ordering |
L.Yu. Mogilner (The Pipeline Transport Institute LLC, RF, Moscow), N.N. Skuridin (The Pipeline Transport Institute LLC, RF, Moscow), E.P. Studenov (The Pipeline Transport Institute LLC, RF, Moscow) Stress-strain state testing of metal structures at site facilities of pipeline transportation of oil and oil products: state and prospects DOI: 10.24887/0028-2448-2019-11-144-148
18. Mogil'ner L.Yu., Vremenko A.V., Skuridin N.N., Pridein O.A., The use of electromagnetic and acoustic thickness gauges in the diagnostics of metal structures and mechanical process equipment (In Russ.), Nauka i tehnologiya truboprovodnogo transporta nefti i nefteproduktov = Science & Technologies: Oil and Oil Products Pipeline Transportation, 2019, no. 3, pp. 315–325. Login or register before ordering |
INFORMATION TECHNOLOGIES |
A.F. Mozchil (Gazpromneft NTÑ LLC, RF, Saint-Petersburg), D.E. Dmitriev (Gazpromneft NTÑ LLC, RF, Saint-Petersburg), N.Z. Bazyleva (Gazpromneft NTÑ LLC, RF, Saint-Petersburg), A.A. Kurilenko (Gazpromneft-Razvitie LLC, RF, Saint-Petersburg), A.D. Ledovsky (IBM Science and Technology Center, RF, Moscow), M.V. Golitsyna (IBM Science and Technology Center, RF, Moscow) The usage of optimization algorithms for engineering calculations in high uncertainty conditions DOI: 10.24887/0028-2448-2019-11-149-152
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