Extended Search

- in all fields
- in the title
- in key words
- in the abstract
- in the bibliography
Issue
Name
Authors
Category

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.

2015/1
Optimization of susbsea pipeline route at cluster development of the Barents and Kara seas from Novay Zemlya
Geosciences

Authors: Yaroslav O. EFIMOV was born in 1989. He graduated from Gubkin Russian State University of Oil and Gas with MS degree in “Offshore engineering”. Since 2011 he is a PhD student as the department of “Offshore oil and gas field development”. E-mail: trudyrgung@gubkin.ru
Anatoly B. ZOLOTUKHIN was born in 1946. He graduated from Gubkin Institute of Oil and gas, Lomonosov Moscow State University in 1977, PhD degree from Gubkin Russian State University of Oil and Gas in 1972. Rectorat Counsellor, professor at oil and gas field development department, research director of Arctic oil and gas technologies Institute. Adjunct professor at University of Stavanger, Norway. From September 2014 — Chaired professor at Northern Arctic Federal University, Arkhangelsk. E-mail: trudyrgung@gubkin.ru
Ove T. GUDMESTAD born in 1947. He holds a M.Sc. degree in Applied Mathematics from the University of Tromsø in 1973 and a Ph.D. in Hydrodynamics from the University of Bergen in 1985. He spent two years as student and visiting scientist at Massachussetts (MIT) in Boston, USA. Professor at University of Stavanger, honorary professor at Gubkin Russian State University of Oil and Gas. E-mail: trudyrgung@gubkin.ru
Konstantin A. KORNISHIN was born in 1988. He graduated from Gubkin Russian State University of Oil and Gas with MS degree in “Offshore engineering”. Since 2011 he is a PhD student as the department of “Offshore oil and gas field development”. E-mail: trudyrgung@gubkin.ru

Abstract: The paper anticipates a new concept that proposes to use the Novay Zemlya archipelago as a cluster base for development of the whole region of the eastern Barents and western Kara seas. In this case the so called «unitization principle» can be implemented that might improve economics of field development due to less overall investments in common infrastructure. It is proposed to build an LNG plant on the archipelago that will be capable to treat gas from several fields, a pipeline system and a port for LNG takers. The pipeline system should be optimized in order to meet production levels from the fields as well as the capacity of the LNG plant. The paper introduces an approach to the problem of pipeline route optimization which is based on multi criteria principle. The total cost of construction and maintenance of the pipeline along a certain route is determined as a function of several parameters (water depth, presence of ice/icebergs, soil conditions, slope, etc.) and has to be minimized in this model. The problem of the optimum pipeline route is solved with the means of modified algorithms from the graph theory

Index UDK: 517.977.58

Keywords: Barents, Kara, shelf, Arctic, Novaya Zemlya, development, optimization, pipeline route

Bibliography:
1. Abramov C. Atlas Arcticheskih aisbergov. Spb.: FGBU “Arkticheskij i Antarkticheskij nauchno-issledovatel’skij institut”, 1996, 164 p.
2. Atlas Arktiki. М.: GYGK, 1985, 204 p.
3. Borodavkin P.P. Berezin V.L. Sooruzhenie magistral’nyh truboprovodov. 2-e izd., pererab. i dop. M.: Nedra; 1974, 320 p.
4. Borodavkin P.P., Berezin, V.L., Ruderman S.Ju. Vybor optimal’nyh trass magistral’nyh truboprovodov. M.: Nedra, 1974, 320 p.
5. ISO 19906. Oil and Gas industry. Offshore structures. ISO, 2012.
6. Zubakin G.K. Krupnomasshtabnaja izmenchivost’ sostojanija ledjanogo pokrova morej Severo-Evropejskogo bassejna. L.: Gidrometeoizdat, 1984, 160 p.
7. ArcGIS HelpCenter 10.1 [Web resource]. — Available at: http://resources.arcgis.com (accessed 10.09.2014).
8. Grapth theory. Publications. [Web resource]. — Available at: http://www.graphtheory.com/ (accessed 10.09.2014).
9. Izmenchivost’ prirodnyh uslovij v shel’fovoj zone Barenceva i Karskogo morej. Pod red. A.I. Danilova, E.U. Mironova, V.A. Spichkina. SPb.: AANII, 2004, 432 p.
10. Institute of marine research. Bergen, Norway. [Web resource] — Available at: http://www.imr.no/nb-no (accessed 10.09.2014).
11. Kontorovich A.Je., Kontorovich V.A. Geologija i resursy uglevodorodov shel’fov Arkticheskih morej Rossii. [Web resource]. — Available at http://arhsc.ru (accessed 10.09.2014).
12. The International Bathymetric Chart of the Arctic Ocean (IBCAO), [Web resource]. — Available at: http://www.ngdc.noaa.gov (accessed 10.09.2014).
13. Puente I.Dzh. Osvoenie shel’fovyh mestorozhdenij v uslovijah holodnogo klimata. Norvezhskij tehnologicheskij institut, Trondheim, Norway, 2013.
14. Ryerson Ch. Assessment of Superstructure Ice Protection as Applied to Offshore Oil Operations Safety//Ice Protection Technologies, Safety Enhancements, and Development Need. — 2009.
15. Ryerson Ch. Ice protection of offshore platforms//U.S. Army Engineer Research and Development Center, Cold Regions Research and Engineering Laboratory. Cold Regions Science and Technology, 2011, p. 97–110.
16.
Sechin I.I. Novaja neftjanaja jera. CERA Week 2013. Houston, USA.
17. Sherpa Konsult [Web resource] — Available at: http://www.arctic-europe.com/ (accessed 10.09.2014).
18. Farré A.B., Stephenson S., Efimov Y.O. et. al, Commercial Arctic shipping through the Northeast Passage re-examined: Routes, resources, governance, technology, and infrastructure, Polar Geography (v pechati).

2011/3
Smart well performance simulation and optimization based on reliability of a high-tech completion
Oil and gas processing, chemistry of oil and gas

Authors: Alexey A. KHRULENKO was born in 1985, graduated from Murmansk State Technical University in 2006 and master’s programme at Gubkin Russian State University of Oil and Gas. He is now post-graduate student at the Department of Exploration of Offshore Oil and Gas Fields at Gubkin Russian State University of Oil and Gas. E-mail: a.khrulenko@gmail.com
Anatoly B. ZOLOTUKHIN was born in 1946, graduated from the Gubkin Moscow Institute of Petrochemical and Gas Industry in 1969, and postgraduate course of the said institute in 1972, Moscow State University. MV University in 1977. He is Deputy Rector for International Relations of Gubkin Russian State University of Oil and Gas. E-mail: Anatoly.zolotukhin@gmail.com

Abstract: The paper deals with the problems of modeling tech wells, evaluating their performance, optimization of management of flow assessment control devices and reliability of their work. To solve these problems we propose an approach based on the pairing of a commercial simulator and optimizing software add-in, realizing the Hook-Jeeves method. The proposed approach was tested on several implementations of the hydrodynamic model and showed good results.

Index UDK: 622.24

Keywords: high-tech wells, «smart» wells, optimization, reliability analysis, flow control device

Bibliography: