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2018/4
Updating geological and production parameters of complex jura reservoirs based on interwell correlation and tracer analysis (for eastern slope of Surgut arch deposits)
Lobusev A.V.
Pozdnyakov A.P.
Miletenko N.V.
Permyakova I.S.
Tyukavkina O.V.
Geosciences
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Authors: Alexander V. LOBUSEV graduated from Gubkin Moscow Institute of petrochemical and Gas Industry in 1980, from the Geological Faculty. Professor, Doctor of Geological and Mineralogical Sciences of Gubkin Russian State University of Oil and Gas (National Research University). He is the author of more than 130 scientific publications. E-mail: lobusev@gmail.com
Olga V. TYUKAVKINA she graduated from Tomsk State University in 1997, with a degree in Geological Survey, Prospecting and Exploration. Associate Professor, Candidate of Geological and Mineralogical Sciences of Gubkin Russian State University of Oil and Gas (National Research University). She is the author of more than 70 scientific publications. E-mail: kpgng@gubkin.ru
Nikolay V. MILETENKO, deputy Director of the Department of State Policy and Regulation in the Field of Geology and Subsoil Use of the Ministry of Natural Resources of the Russian Federation. Doctor of Geological and Mineralogical Sciences, Professor.
E-mail: minprirody@mnr.gov.ru
Alexander P. POZDNYAKOV graduated from Gubkin Moscow Institute of petrochemical and Gas Industry in 1978, from the specialty Applied Mathematics, he have finished a postgraduate study in 1981, in 2004, doctoral studies there. Professor, Doctor of Technical Science of Gubkin Russian State University of Oil and Gas (National Research University). He is the author of more than 100 scientific works and inventions, more than 10 teaching and methodical works, one monograph. E-mail: kpgng@gubkin.ru
Ирина Сергеевна ПЕРМЯКОВА, резервуарный инженер, ООО “СЖЖ Восток”. Автор 2 научных публикаций.
E-mail: kpgng@gubkin.ru

Abstract: Interwell correlation of the complex object YuS2 was carried out on the basis of an integrated approach and an integrated procedure for interpreting the results of indicator studies of various types of cross sections (type 1, 2, 3), using the example of the fields on the eastern slope of the Surgut arch. Simultaneous use of several types of tracers made it possible to detail the data on the hydrodynamic connection between the injection and production wells, determine the existence of inter-layer flows and establish the nature of the distribution of filtration flows and the filtration rate of the tracer fluid. The presented studies increase the information content of field data, provide an opportunity to justify and make design decisions for the development of reserves within a complex reservoir

Index UDK: 550.8.012

Keywords: tracer studies, indicator, hydrodynamic coupling, filtration properties, well, ammonium rodanide, trisodium phosphate, concentration

Bibliography:
1.Barkov S.L., Kachalov O.B., Muzy’ka A.V. Problemy i opyt razrabotki nizkoproduktivnyx zalezhej OAO “Surgutneftegaz”. Voprosy geologii, bureniya i razrabotki neftyanyx i gazovyx mestorozhdenij Surgutskogo regiona. Sbornik trudov SurgutNIPIneft’. M.: VNIIOENG, 1997, 303 р.
2.Kovalev A.G., Kuzneczov A.M., Kuzneczov V.V., Kolesnik V.B., Medvedev N.Ya. Issledovaniya svojstv kollektorov nefti v yurskix otlozheniyax Surgutskogo svoda. Voprosy geologii, bureniya i razrabotki neftyanyx i gazovyx mestorozhdenij Surgutskogo regiona. Sbornik trudov SurgutNIPIneft`. M.: VNIIOE`NG, 1997, 303 p.
3.Lobusev A.V., Lobusev M.A., Maxamatxanov R.A., Bakieva A.B. Zakonomernosti, vyayav-lennye v xode trassernyx issledovanij po utochneniyu geologicheskogo stroeniya slozhnopostroennyx zalezhej nefti. Territoriya neftegaz, 2013, no. 10, p. 32-37.
4.Popov A.Yu., Vakulenko L.G. Svyaz’ mineralogo-petrograficheskix xarakteristik alevrito-peschanyx otlozhenij gorizonta Yu2 Shirotnogo Priob’ya s ix fil’tracionno-emkostnymi svojstvami. Interekspo Geo-Sibir’, 2014, t. 2, no. 1, p. 120-124.
5.Tyukavkina O.V., Eshimov G.K. Izuchenie morfologicheskogo stroeniya i litologo-petrogra-ficheskix xarakteristik slozhnopostroennyx kollektorov Surgutskogo svoda. Materialy 1 Mezhdunarodnoj nauchno-prakticheskoj konferencii “Dostizheniya i perspektivyx estestvennyx i texnicheskix nauk”. Stavropol’: Centr nauchnogo znaniya “Logos”, 2012, p. 246, p. 221-227.
6.Tyukavkina O.V. Sovremennye metody vyavleniya zon slozhnopostroennyx kollektorov s trudnoizvlekaemymi zapasami dlya prinyatiya effektivnyx proektnyx reshenij. Nauchno-texnicheskij zhurnal Izvestiya vysshix uchebnyx zavedenij. Gornyj zhurnal, 2013, no. 8, p. 50-58.

2018/3
Identifying parameters of porosity change in complex reservoir after clay acid treatment
Lobusev A.V.
Pozdnyakov A.P.
Miletenko N.V.
Permyakova I.S.
Tyukavkina O.V.
Geosciences
You can access full text version of the article

Authors: Alexander V. LOBUSEV graduated from Gubkin Moscow Institute of petrochemical and Gas Industry in 1980, from the Geological Faculty. Professor, Doctor of Geological and Mineralogical Sciences of Gubkin Russian State University of Oil and Gas (National Research University). He is the author of more than 130 scientific publications. E-mail: lobusev@gmail.com
Olga V. TYUKAVKINA she graduated from Tomsk State University in 1997, with a degree in Geological Survey, Prospecting and Exploration. Associate Professor, Candidate of Geological and Mineralogical Sciences of Gubkin Russian State University of Oil and Gas (National Research University). She is the author of more than 70 scientific publications. E-mail: kpgng@gubkin.ru
Irina S. PERMYAKOVA, reservoir Engineer, CGG Vostok. She is the author of 2 scientific publications. E-mail: kpgng@gubkin.ru
Nikolay V. MILETENKO, deputy Director of the Department of State Policy and Regulation in the Field of Geology and Subsoil Use of the Ministry of Natural Resources of the Russian Federation. Doctor of Geological and Mineralogical Sciences, Professor.
E-mail: minprirody@mnr.gov.ru
Alexander P. POZDNYAKOV graduated from Gubkin Moscow Institute of petrochemical and Gas Industry in 1978, from the specialty Applied Mathematics, he have finished a postgraduate study in 1981, in 2004, doctoral studies there. Professor, Doctor of Technical Science of Gubkin Russian State University of Oil and Gas (National Research University). He is the author of more than 100 scientific works and inventions, more than 10 teaching and methodical works, one monograph. E-mail: kpgng@gubkin.ru

Abstract: Currently, the deposits located within the Fedorov dome structure are at the final stage of development. The share of complex projects under construction containing difficult-to-recover reserves is more than 98 %. All reservoirs are characte- rized by low natural permeability, high clay content, significant water retention ability and heterogeneity in mineralogical composition and reservoir properties. It is important to note that the heterogeneity of rocks in the content of carbonates is generally low and medium, while a complexly built reservoir often contains interlayers with a high content of carbonates. In such conditions, deposits are developed using the technology of clay acid system treatment (aqueous clay-acid compounds with boric acid additives) without prior removal of carbonate compounds

Index UDK: 550.832

Keywords: hydrochloric acid solution, clay-acid solution, surface-active substances, inhibitor, stabilizer, porosity

Bibliography:
1. Bulatov A.I., Kachmar Yu.D., Makarenko P.P., Yaremiychuk R.S. Well development. Refe- rence manual. M., Nedra, 1999, 467 p.
2. Kalinin V.F. Lithological and physical criteria for optimization of the technology of clay-acid treatment of terrigenous reservoirs. Proceedings of the Saratov University, series of Sciences about the Earth, issue 1, vol. 7, 2007, p. 67-74.
3. Lobusev A.V., Strakhov P.N., Lobusev M.A. A new approach to assessing and predicting the productivity of oil and gas saturated rocks. Academic Journal of Western Siberia, 2014, vol. 10, no. 2, p. 45-46.
4. Tyukavkina O.V. Construction of lithological and filtration-capacitive models of complex reservoirs (on the example of the Surgut arch deposits) Bulletin of Voronezh State University. Series: Geology, 2015, no. 1, p. 41-48.

2013/3
Categorizing technical interactions in marine oil and gas facilities projects
Bezkorovainy V.P.
Korneyev D.V.
Pozdnyakov A.P.
Automation, modeling and energy supply in oil and gas sector
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Authors: Denis V. KORNEYEV graduated from the Master’s Program of Gubkin Russian State University of Oil and Gas in 2011 majoring in petroleum Engineering. He is postraduate student of the Department of Computer-Aided Design for Oil and Gas Industry of Gubkin Russian State University of Oil and Gas. He is author of 5 scientific publications. E-mail: d.v.korneyev@gmail.com
Vladimir P. BEZKOROVAYNY graduated from Donetsk State University in 1971, specializing in Radiophysics. He is Doctor of Technical Sciences, Full Professor of Gubkin Russian State University of Oil and Gas. He is author of over 110 scientific papers. He specializes in the field of automation and design of gas transmission systems and project management of gas industry. E-mail: vpbp@mail.ru
Alexander P. POZDNYAKOV graduated from Gubkin Russian State University of Oil and Gas, Faculty of Computer Science and Engineering. Major: Applied Mathematics. Ph.D., associate professor. He is author of more than 90 scientific publications. He is Chairman of the Board of Directors of LLC “PRIME GROUP”, Director of Engineering and Technology Center of LLC “PRIME GROUP”. E-mail: trudyrgung@gubkin.ru

Abstract: Possible technical interactions arising in the implementation of projects of offshore oil and gas fields development are considered and identified. These are clustered and organized into an hierarchical structure. The proposed object-oriented model of the interactions and the description of its methodology using UML-notation allow developing custom applications for managing interactions.

Index UDK: 681.5.004.9

Keywords: UML, object-oriented modeling, management of interactions, project management, design MNGS

Bibliography:
1. Drozdov S.V., Bezkorovajnyj V.P. Inzhiniring tipovogo edinogo informacionnogo prostranstva realizacii neftegazovyh proektov. Avtomatizacija, telemehanizacija i svjaz’ v neftjanoj promyshlennosti, 2012, no. 8, p. 15–21.
2. Korneev D.V., Beleckij E.A., Tuchkov A.A. Proektirovanie morskih neftegazovyh sooruzhenij (MNGS) s ispol’zovaniem sistemy avtomatizirovannogo proektirovanija Smart-Marine Enterprise. SAPR i grafika, 2013, no. 6, p. 45–48.
3. Critsinelis A. The modern field development approach. Proceeding of OMAE 2001 20th International Conference on Offshore Mechanics and Arctic Engineering, Rio de Janeiro, Brasil, 2001.
4. Gibb A.F.G. The management of construction interfaces: preliminary results from an industry sponsored research project concentrating on high performance classing in the United Kingdom. SCAL Convention, Construction Vision, 2000.
5. Laan J., Widenburg L., Kluenen P. Dynamic interface management in transport infrastructure project. Proceeding of the 2th European System Engineering Conference, Munich, Germany, 2000.
6. Qian Chen. An object model framework for interface management in building information models. Doctor of Philosophy Dissertation in Environment Design and Planning. Virginia Polytechnic Institute and State University. July 2007