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2019/4
Improving development efficiency of porous fractured carbonate reservoirs’ with respect for wettability characteristics
Geosciences

Authors: Elsa R. SHAIKHLISLAMOVA graduated from Gubkin Russian State University of Oil and Gas (National Research University) (master’s degree) in 2016. She is postgraduate student of the Department of Oil and Field Development and Operation of Gubkin Russian State University of Oil and Gas (National Research University). She is author of 2 scientific works. E-mail: Shaykhlislamova.e@gubkin.ru
Igor T. MISHCHENKO was born in 1937, graduated from Ufa Petroleum Institute in 1961 and completed a course of postgraduate studies at Gubkin Moscow Institute of Petrochemical and Gas Industry in 1965. Нe is Doctor of Technical Sсiences, Head of the Department of Oil Field Development and Operation at Gubkin Russian State University of Oil and Gas (National Research University). He is specialist in the development and operation of oil fields and author of over 350 scientific works. E-mail: info_oil@list.ru
Kirill A. BRAVICHEV was born in 1971, graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1992. Candidate of Technical Sciences, assistant-pro-fessor of the Department of Oil Field Development and Operation of Gubkin Russian State University of Oil and Gas (National Research University). He published over 30 works. E-mail: bravicheva_t_b@mail.ru
Maxim V. KOLESNIKOV was born in 1993, graduated of Gubkin Russian State University of Oil and Gas (National Research University) in 2019. He is postgraduate student of the Department of Oil and Field Development and Operation of Gubkin Russian State University of Oil and Gas (National Research University). He is author of more than 10 scientific works. E-mail: MKolesnikov@vniineft.ru

Abstract: The results of physical modelling and numerical studies of the efficiency of development processes for porous fractured type carbonate reservoirs with low-permeability matrix at steady and cyclic water flooding are presented. Quantitative patterns of influence on specific indicators of the development of natural and technological parameters for the development of scientific and methodological foundations of new energy-saving waterflooding technologies are obtained.

Index UDK: 622.276

Keywords: carbonate reservoir, low-permeability matrix, porous fractured reservoir, steady water flooding, cyclic water flooding, reservoir properties, technology parameters, scientific and methodological foundations, energy-saving water flooding technologies, core material, extragents, core cleaning agents, laboratory research

Bibliography:
1. Golf-Raht T.D. Osnovy neftepromyslovoj geologii i razrabotki treshhinovatyh kollektorov: Per. s angl. N.A. Bardinoj, P.K. Golovanova, V.V. Vlasenko, V.V. Pokrovskogo pod red. A.G. Kovaleva. M.: Nedra, 1986, 608 р.
2. Izvlechenie nefti iz karbonatnyh kollektorov. M.L. Surguchev, V.I. Kolganov, A.V. Gavura i dr. M.: Nedra, 1987, 230 р.
3. Mishhenko I.T., Bravichev K.A., Zagajnov A.N. Povyshenie jeffektivnosti razrabotki karbonatnyh kollektorov porovo-treshhinnogo tipa s nizkopronicaemoj gidrofil’noj matricej. Neft’, gaz i biznes, 2013, no. 10, p. 34-42.
4. GOST 26450.0-85 — GOST 26450.2-85. Porody gornye. Metody opredelenija kollektorskih svojstv.
5. Cuiec L.E. Rock/Crude Oil Interactions and Wettability: An Attempt To Understand Their Interrelation, paper SPE 13211 presented at the 1985 Annual Conference and Exhibition, Houston, 16-19 September.
6. Gant P.L., Anderson W.G. Core Cleaning for Restoration of Native Wettability, paper SPE 14875 prepared for presentation at the Rocky Mountains Regional Meeting of the Society of Petroleum Engineers held in Billings, MT, May 19-21, 1986.
7. Tul’bovich B.I. Metody izuchenija porod-kollektorov nefti i gaza. M.: Nedra, 1979, 199 p.
8. OST 39-180-85. Neft’. Metod opredelenija smachivaemosti uglevodorodosoderzhashhih porod.
9. Kovaljov K.M., Kolesnikov M.V. i dr. Issledovanija smachivaemosti karbonatnyh kollektorov na osnove iskusstvennogo starenija. SPE-182064. Moscow: SPE Russian Petroleum Technology Conference and Exhibition, 2016.

2015/3
The rationale for the boundary values of the final oil recovery factor for clastic reservoirs, developed with the use of water flooding
Geosciences

Authors: Igor T. MISHCHENKO graduated from Ufa Petroleum Institute in 1961 and completed a course of postgraduate studies at Gubkin Moscow Institute of Petrochemical and Gas Industry in 1965. Нe is Doctor of Technical Sсiences, Head of the Department of Development and Operation of Oil Fields at Gubkin Russian State University of Oil and Gas. He is specialist in the development and operation of oil fields and author of over 350 scientific works more than 250 of which were published.E-mail: info_oil@list.ru
Larisa N. NAZAROVA graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1979. She is Candidate of Technical Sciences, Associate Professor of the Department of Development and Operation of Oil Fields of Gubkin Russian State University of Oil and Gas. She is specialist in the field of development and design of oil fields. She is author of more than 50 scientific publications. E-mail: Nazarova-ln@irmu.ru

Abstract: The value of hydraulic conductivity of the layer as an integrated parameter of geological and physical characteristics largely determines the conditions of oil flow. Based on the analysis of the actual maximum values of oil recovery factor obtained for layers belonging to different groups dpending on the value of hyddraulic conductivity, the possible achievable ORF is evaluated. This can serve as a criterion for decision-making in projects for oil fields development

Index UDK: УДК 622.276

Keywords: oil recovery factor, hydraulic conductivity, flow capacity

Bibliography:
1. Baziv V.F., Vasil’ev I.P., Ustimov S.K., Egurcov N.N. Osnovnye napravlenija po sovershenstvovaniju proektnyh tehnologicheskih dokumentov. Sb. trudov Vserossijskogo soveshhanija po razrabotke neftjanyh mestorozhdenij. Al’met’evsk, 2002 g.
2. Grigor’ev M. Regional’naja specifika trudnoizvlekaemyh zapasov nefti Rossii. Nacional’nyj otraslevoj zhurnal „Neftegazovaja vertikal’”, 2011, no. 5.
3. Zhdanov S.A., Maljutina G.S. Vlijanie razbalansirovki sistemy razrabotki na polnotu vyrabotki zapasov. Trudy 5-go Mezhdunarodnogo tehnologicheskogo simpoziuma. INB, 2006, 150 p.
4. Ivanova M.M., Cholovskij I.P., Bragin Ju.I. Neftegazopromyslovaja geologija. M.: Nedra, 2000.
5. Muslimov R.H. Sovremennye metody upravlenija razrabotkoj neftjanyh mestorozhdenij s primeneniem zavodnenija: Uchebnoe posobie. Kazan’: Izd-vo Kazanskogo un-ta, 2003, 596 p.

2015/2
Influence of nitrogen content on density and solubility coefficient of produced associated gas
Geosciences

Authors: Igor T MISHCHENKO graduated from Ufa Petroleum Institute in  1961 and postgra-duate from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1965. Doctor of siences, head of the department of development and exploitation of oil fields RSU of Oil and Gas named after I.M. Gubkin. Specialist in the development and exploitation of oil fields. Author of over 350 scientific works, more than 250 of which were published. E-mail: info_oil@list.ru

Abstract: Based on the synthesis of data published on more than six hundred production objects of oil fields of the former USSR correlations between the density of associated gas produced from oil fields as well as the solubility coefficient and the nitrogen content of produced gas are obtained

Index UDK: УДК 622.276

Keywords: nitrogen content, density of gas, solubility coefficient, correlation relationship

Bibliography:
1. Trebin G.F., Charygin N.V., Obukhova T.M. Oil from the Soviet Union. M .: Nedra, 1974.
2. Trebin G.F., Charygin N.V., Obukhovа T.M. Oil from the Soviet Union, 2-е izd. M.: Nedra, 1980.

2010/4
Study of efficiency of developing stratified heterogeneous reservoirs to validate the boundaries of reservoir pressure changes excluding irreversible reservoir damage (for the conditions of UK10-11 reservoirs of Tallinn area of Krasnoleninskoye field).
Drilling and development of hydrocarbon fields

Authors: Igor T. MISCHENKO was born in 1937, graduated from Ufa Institute of Oil in 1961. Doctor of Technical Sciences, professor, head of the Department of Development and Exploitation of Oil and Gas Fields of Gubkin Russian State University of Oil and Gas. He published over 300 works. E-mail: info_oil@list.ru
Tatiana B. BRAVICHEVA was born in 1946, graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1967. Candidate of Technical Sciences, assistant-professor of the Department of Development and Exploitation of Oil and Gas Fields of Gubkin Russian State University of Oil and Gas. She published over 40 works. E-mail: bravicheva_t_b@mail.ru
Kirill A. BRAVICHEV was born in 1971, graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1992. Candidate of Technical Sciences, assistant-professor of the Department of Development and Exploitation of Oil and Gas Fields of Gubkin Russian State University of Oil and Gas. He published over 30 works. E-mail: bravicheva_t_b@mail.ru
Olga N. SARDANASHVILI was born in 1953, graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1976. Candidate of Technical Sciences. She is senior researcher of the Institute of Problems of Oil and Gas of the Russian Academy of Sciences. E-mail: o.sardan@mail.ru

Abstract: The work is devoted to the problem of heterogeneous reservoir development under flooding with respect for the estimates of changes of the boundaries of reservoir pressure excluding irreversible reservoir damage (for the conditions of UK10-11 reservoirs of Tallinn area of Krasnoleninskoye field).

Index UDK: УДК: 622.276.6

Keywords: increase of efficiency of developing stratified heterogeneous reservoirs, cyclic flooding, effective pressure, change of reservoir properties, irreversible damage of reservoir system

Bibliography: