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Authors: Petr V. PYATIBRATOV (born in 1979) graduated from Gubkin Russian State University of Oil and Gas in 2002, he is Candidate of Technical Sciences, assistant professor of the Department of Oil Field Development of Gubkin Russian State University of Oil and Gas (National Research University). He is specialist in the development and hydrodynamic modeling of oil and gas fields, and author of more than 30 scientific publications. E-mail: pyatibratov.p@gmail.com
Rinat А. KHABIBULLIN (born in 1978) graduated from Ufa State Aviation Technical University in 2000. He is Candidate of technical Sciences, assistant professor of the Department of Oil Field Development of Gubkin Russian State University of Oil and Gas (Natio- nal Research University). He is specialist in petroleum engineering and author of more than 30 scientific publications.
E-mail: Khabibullin.ra@gubkin.ru
Daniil S. SKOROV (born in 1997) graduated from Gubkin Russian State University of Oil and Gas (National Research University) in 2018 with Bachelor degree in “Petroleum Engineering”. He is Master student of the Department of Oil Field Development of Gubkin Russian State University of Oil and Gas (National Research University). E-mail: danilskorov@gmail.com
Vladislav V. MIKHALKIN (born in 1995) graduated from Gubkin Russian State University of Oil and Gas (National Research University) in 2014 (bachelor). Currently he is studying at “Offshore Field Development Technology” joint degree program of Gubkin Russian State University of Oil and Gas (National Research University) and Stavanger University. E-mail: mikhalkin.w@gmail.com

Abstract: Along with currently available research focused on the properties of foamy oil in the heavy oil field development, this article describes a method for modifying re- lative permeabilities, which simultaneously takes into account the presence of gas in a dispersed state and high mobility of the gas phase during steam injection

Index UDK: 622.276

Keywords: heavy oil, foamy oil, relative permeabilities modification, steam drive

Bibliography:
1. Chen J.Z., Maini B. Numerical Simulation of Foamy Oil Depletion Tests. Canadian International Petroleum Conference. Calgary, Alberta: Petroleum Society of Canada, 2005.
2. Maini B. Foamy-Oil Flow. Journal of Petroleum Technology. University of Calgary: Society of Petroleum Engineers, 2001.
3. Mastmann M., Moustakis M.L., Bennion D.B. Predicting Foamy Oil Recovery. SPE Western Regional Meeting. Bakersfield, California: Society of Petroleum Engineers, 2001.
4. Shen C. A Practical Approach for the Modeling of Foamy Oil Drive Process. SPE Canada Heavy Oil Technical Conference. Calgary, Alberta, Canada: Society of Petroleum Engineers, 2015.
5. Sheng J.J., Maini B.B., Hayes R.E., Tortike W.S. Experimental Study of Foamy Oil Stability. Journal of Canadian Petroleum Technology. Banff, Alberta: Petroleum Society of Canada, 1997.
6. Mihajlov D.N. Dinamika techeniya nefti s uchetom obrazovaniya mikropuzyr’kov gaza v potoke. Trudy Rossijskogo gosudarstvennogo universiteta nefti i gaza imeni I.M. Gubkina. M.: Rossijskij gosudarstvennyj universitet nefti i gaza (nacional’nyj issledovatel’skij universitet) imeni I.M. Gubkina, 2011, no. 1 (262), p. 55-67.
7. Mihajlov D.N. Osobennosti processa vytesneniya nefti pri nalichii mikropuzyr’kov v fil’tra-cionnom potoke. Prikladnaya mekhanika i tekhnicheskaya fizika. Novosibirsk: Izdatel’stvo Sibirskogo otdeleniya RAN, 2012, p. 68-83.
8. Strizhov I.N., Pyatibratov P.V., Mihajlov A.I., Nechaeva E.V. Fazovye pronicaemosti, ispol’-zuemye pri raschete debitov skvazhin, ehkspluatiruemyh s zabojnymi davleniyami nizhe davleniya nasyshcheniya. Neftyanoe hozyajstvo. M.: AO Izdatel’stvo “Neftyanoe hozyajstvo”, 2006, p. 80-82.

2017/4
Evaluation of technological efficiency of dual completion production zones
Geosciences

Authors: Petr V. PYATIBRATOV was born in 1979. He graduated from Gubkin Russian State University of Oil and Gas in 2002. He is Candidate of Technical Sciences, assistant professor of the Department of Oil Field Development of Gubkin Russian State University of Oil and Gas (National Research University). He is specialist in the development and hydrodynamic modeling of oil and gas fields and author of more than 40 scientific publications. E-mail: pyatibratov.p@gmail.com
Larisa N. NAZAROVA graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1979. She is Doctor of Technical Sciences, professor of the Department of Oil Field Development of Gubkin Russian State University of Oil and Gas (National Research University). She is specialist in the development of oil and gas fields and enhanced oil recovery and author of more than 50 scientific publications. E-mail: nazarova-ln@irmu.ru
Nikita Y. ZOTOV was born in 1995. He graduated from Gubkin Russian State University of Oil and Gas in 2017 with Bachelor degree in „Petroleum Engineering”. He is currently master student of the Department of Oil Field Development of Gubkin Russian State University of Oil and Gas (National Research University). E-mail: arx_imed@mail.ru
Brenda N. BAKURADZE graduated from Gubkin Russian State University of Oil and Gas (National Research University) in 2016. Bachelor degree in „Petroleum Engineering”, master student of the oil field development Department of Gubkin Russian State University of Oil and Gas (National Research University). E-mail: brenda-2009@yandex.ru

Abstract: The share of hard-to-recover (HTR) reserves in the total structure of reserves is increasing year by year, thus there is a growing interest in identifying effective technologies for the development of deposits containing these reserves. The paper overviews the problems of production zones of dual development taking into account the geological and physical conditions of the actual field with deteriorated structure of residual reserves. The study showed that in production zones with lateral heterogeneity the dual development technology allows to increase both current production and final values of the oil recovery factor during the late stage of development without significant capital investments into the borehole drilling

Index UDK: 622.276

Keywords: hard to recover reserves, lateral heterogeneity, production zones separate development

Bibliography:
1. Shandrygin A.N., Lutfullin A.A. Main Tendencies of the Sweep Efficiency Improvement Evolution in Russia. SPE. 117410, р. doi: 10.2118/117410-RU.
2. Demidov A.V., Pyatibratov P.V. Justifying Method of Enhancing Oil Recovery of Multi-zone Reservoirs Including Hydrodynamic Connected Reservoirs. Neft, gaz i biznes [Oil, gas and business], 2015, no. 6, p. 18-23 (in Russian).
3. Ivanovskii V.N. Production zone separate operation and well intellectualization: yesterday, today, tomorrow. Inzhenernaya praktika [Engineering practice], 2010, no. 1, p. 4-15.
4. Nazarova L.N. Methodology of combining layers into single production zone of complex parameter. Proceedings of Gubkin Russian State University of Oil and Gas, 2015, no. 1.
5. Lutfullin A.A. Basic methods of increasing of recoverable oil in Russia. Burenie i neft’ [Dril- ling and oil.], 2009, no. 1.

Authors: Anatoly B. ZOLOTUKHIN was born in 1946. He graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1969, and Lomonosov Moscow State University in 1977. He is Full Professor of the Department of Oil Field Development, Doctor of Technical Sciences. He is specialist in the development of oil and gas fields and enhanced oil recovery, author of more than 140 scientific publications and 19 monographs. E-mail: anatoly.zolotukhin@gmail.com
Petr V. PYATIBRATOV was born in 1979. He graduated from Gubkin Russian State University of Oil and Gas in 2002, Candidate of Technical Sciences, Associate Professor of the Department of Oil Field Development of Gubkin Russian State University (National Research University) of Oil and Gas. He is specialist in the development and hydrodynamic modeling of oil and gas fields, author of more than 30 scientific publications. E-mail: pyatibratov.p@gmail.com
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 Oil Field Development of Gubkin Russian State University (National Research University) of Oil and Gas. She is specialist in the development of oil and gas fields and enhanced oil recovery, author of more than 50 scientific publications. E-mail: nazarova-ln@irmu.ru
Irena V. YAZYNINA graduated from Lomonosov Moscow State University in 1975. She is Candidate of Geological-Mineralogical Sciences, Associate Professor of the Department of Oil Field Development of Gubkin Russian State University (National Research University) of Oil and Gas. She is specialist in the petrophysics and enhanced oil recovery, author of more than 50 scientific publications. E-mail: yazynina@mail.ru.
Evgeny V. SHELYAGO was born in 1985. He graduated from Gubkin Russian State University of Oil and Gas in 2008, Candidate of Technical Sciences, Senior Lecturer of the Department of Oil Field Development of Gubkin Russian State University (National Research University) of Oil and Gas. He is specialist in the petrophysics and enhanced oil recovery, author of 14 scientific publications. E-mail: thelgp@yandex.ru

Abstract: The paper overviews the problems selection of enhanced oil recovery (EOR) methods with account for reservoir geological and physical conditions. Applicability criteria for thermal, gas and chemical EOR are presented. The set of criteria is based on national and international secondary and tertiary EOR projects results. A ternary logic method is proposed and tested for EOR screening. This method of perspective EOR estimation was tested for the conditions of more than 100 formations of 15 fields located in one of Eurasia regions. It is noted that of the EOR applicability should assessed at early stages of the field development design

Index UDK: 622.279

Keywords: hard to recover reserves, EOR methods, applicability criteria, complicating factors, fuzzy ternary logic, EOR screening

Bibliography:
1. Surguchev M.L. Vtorichnye i tretichnye metody uvelichenija nefteotdachi plastov. M.: Nedra, 1985, 308 р.
2. Muslimov R.H. Sovremennye metody povyshenija nefteizvlechenija: proektirovanie, optimizacija i ocenka jeffektivnosti: Uchebnoe posobie. Kazan’: izdatel’stvo „FJeN” Akademii nauk R.T., 2005, 688 p.
3. Antoniadi D.G. Teorija i praktika razrabotki mestorozhdenij s vysokovjazkimi neftjami. Krasnodar: „Sovetskaja Kuban”, 2004, 336 p.
4. Krjanev D.Ju., Zhdanov S.A. Primenenie metodov uvelichenija nefteotdachi plastov v Rossii i za rubezhom. Opyt i perspektivy. Burenie i neft’, 2011, no. 2.
5. Krjanev D.Ju., Zhdanov S.A. Metody uvelichenija nefteotdachi: opyt i perspektivy primenenija. Neftegazovaja vertikal’, 2011, no. 5.
6. Eremin N.A., Zolotuhin A.B., Nazarova L.N., Chernikov O.A. Vybor metoda vozdejstvija na neftjanuju zalezh’. M.: GANG, 1995, 190 p.
7. Zheltov Yu.P., Zolotuhin A.B., Eremin H.A., Nazarova L.N. Sistema avtomatizirovannogo proektirovanija razrabotki neftjanyh mestorozhdenij (SAPR RNM) s primeneniem teplovyh metodov uvelichenija nefteotdachi. Razvitie i sovershenstvovanie sistem razrabotki neftjanyh mestorozhdenij. M.: Nauka, 1989, p. 119-131.
8. Favennec Jean-Pierre The Economics of EOR. Сonference of Enhanced Oil Recovery (EOR), 6 December 2004, London, UK.
9. Alvarado V., Thyne G., and Murrell G. SPE Annual Technical Conference and Exhibition. Screening Strategy for Chemical Enhanced Oil Recovery in Wyoming Basins. Denver, Colorado, USA, 21-24 September, 2008.
10. Alvarado V., Manrique E. Enhanced Oil Recovery: An Update Review. Energies, 2010, vol. 3, no. 9, p. 1529-1575.
11. Taber J.J., Martin F.D., Seright R.S. EOR Screening Criteria Revisted — Part 1: Introduction to Screening Criteria and Enhanced Recovery Field Projects. SPE Reservoir Engineering, August, 1997, p. 189-198.
12. Taber J.J., Martin F.D., Seright R.S. EOR Screening Criteria Revisted — Part 2: Applications and Impact of Oil Prices. SPE Reservoir Engineering, August, 1997, p. 199-205.

2016/1
Assessment of impact of geological structure uncertainties on forecast production data of Kirinskoye field
Geosciences

Authors: Alexander D. DZYUBLO was born in 1947. He graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1972, specializing as mining engineer-geophysicist. He is Professor of the Department of Offshore Oil and Gas Field Development, Doctor of Geological-Mineralogical Sciences. He is author of more than 130 scientific publications and 1 monograph. E-mail: dzyublo.a@gubkin.ru
Petr V. PYATIBRATOV was born in 1979. He graduated from Gubkin Russian State University of Oil and Gas in 2002, he is Candidate of Technical Sciences, Assistant Professor of the Department of Oil Field Development of Gubkin Russian State University (National Research University) of Oil and Gas. He is specialist in the design and hydrodynamic modeling of oil and gas fields. He is author of more than 30 scientific publications. E-mail: pyatibratov.p@gmail.com
Anna E. STOROZHEVA graduated from Gubkin Russian State University of Oil and Gas with MS degree in „Offshore engineering” in 2012. She is a PhD student at the Department of Offshore Oil and Gas Field Development. E-mail: stor_anna@mail.ru >

Abstract: Under conditions of fields in the Kirinsky block the possibility of obtaining such data as movement of gas-water contact and depletion of different parts of depo-sits are severely limited. Forecasting the development process with the use of a permanent hydrodynamic model, adaptable to field data, would be one of the main methods of control. Generation of hydrodynamic models of the Kirinsky gas condensate field allowed to estimate the impact of the uncertainties of the geo-logical structure such as faults on the process of the depletion of reserves and the dynamic link between the layers

Index UDK: УДК 622.279.04

Keywords: hydrodynamic models, production data, offshore of Sakhalin island, the Kirinsky license block

Bibliography:
1. Dzjublo A.D., Shnip O.A., Halimov K.Je. Geologicheskoe stroenie i neftegazonosnost’ Kirinskogo bloka shel’fa o. Sahalin. Neft’, gaz i biznes, 2013, no. 3, p. 26-32.
2. Rezul’tirujushhij podschet zapasov gaza i gazovogo kondensata Kirinskogo mestorozhdenija. Otchet. M.: OOO «Gazprom VNIIGAZ», 2012.
3. Li Dzh., Vattenbarger R.A. Inzhiniring gazovyh rezervuarov. M.-Izhevsk: Institut komp’ju-ternyh issledovanij, 2014, 944 p.
4. Kanevskaja R.D. Matematicheskoe modelirovanie gidrodinamicheskih processov razrabotki mestorozhdenij uglevodorodov. M.-Izhevsk: Institut komp’juternyh issledovanij, 2002, 140 p.
5. RD 153-39.0-047-00 «Tehnicheskij reglament na postroenie geologo-tehnologicheskih mode-lej neftjanyh i gazoneftjanyh mestorozhdenij». M.: Mintopjenergo, 2000.