Статьи

Drilling and development of hydrocarbon fields

Ultrasonic system based on piezo ceramic emitters and technology for reworking oil wells
Drilling and development of hydrocarbon fields

Authors: Vladimir O. ABRAMOV is Doctor of Technical Sciences, Head of the Laboratory of Ultrasonic Equipment and Technology of the Kurnakov Institute of General and Inorganic Chemistry. . E-mail: trudyrgung@gubkin.ru
Marat S. MULLAKAEV is Doctor of Technical Sciences, Senior Research Fellow of the Kurnakov Institute of General and Inorganic Chemistry. E-mail: trudyrgung@gubkin.ru
Igor B. ESIPOV was born in 1945. He graduated from Moscow Physico-Technical Institute in 1968, specializing in “Ultrasonic Engineering”. He is Doctor of Physical and Mathematical Sciences, Professor of Gubkin Russian State University of Oil and Gas. He has published 89 scientific papers. E-mail: igor.esipov@mail.ru
Vladimir O. PROKOPTSOV is a lecturer of Khabarovsk Institute of Infocomm branch of the Siberian State University of Telecommunications and Informatics (FGOBU VPO “SibSUTI”). E-mail: trudyrgung@gubkin.ru

Abstract: The results of the development and testing of the ultrasonic complex and technology for enhanced recovery of oil using piezoelectric ceramic emitters are presented. Pilot tests of the complex at the Samotlor oil field (Western Siberia) showed high efficiency of ultrasonic cleaning technology of the bottom hole zone, so oil companies can consider this technology as one of the promising methods for enhancing oil recovery.

Index UDK: 532.133, 622.69, 534-8

Keywords: oil, enhanced oil recovery techniques, bottom-hole zone, ultrasonic complex, ultrasonic technology, piezo emitter, pilot test, well flow factor

Bibliography:
1. Povyshenie produktivnosti reanimacija skvazhin s primeneniem vibrovolnovogo vozdejstvija/ V.P. Dyblenko, R.N. Kamalov, R.Ja. Sharifullin, I.A. Tufanov. M.: Nedra. 2000, 381 р.
2. Surguchev M.L., Kuznecov O.L., Simkin Je.M. Gidrodinamicheskoe, akusticheskoe, teplovoe ciklicheskoe vozdejstvie na neftjanye plasty. M.: Nedra, 1975, 320 р.
3. Kuznecov O.L., Efimova S.A. Primenenie ul’trazvuka v neftjanoj promyshlennosti. — M.: Nedra,1983, 192 р.
4. Kuznecov O. L., Simkin Je. M., Chilingar Dzh. Fizicheskie osnovy vibracionnogo i akusticheskogo vozdejstvija na neftegazovye plasty. M: Mir, 2001, 260 р.
5. Ibragimov L.H., Mishhenko I.T., Chelojanc D.K. Intensifikacija dobychi nefti. M.: Nauka, 2000, 414 р.
6. Apasov T.K. Analiz provedenija GRP na primere jurskih plastov. Neft’ i gaz Zapadnoj Sibiri. — Tom 1. — Tjumen’: TjumGNGU, 2003, 98 р.
7. Mullakaev M.S. Ul’trazvukovaja intensifikacija tehnologicheskih processov dobychi i pererabotki nefti, ochistki neftezagrjaznennyh vod i gruntov: Dis. dokt. tehn. nauk: 22.03.12, Moskva, 2012, 391 р.
8. Ul’trazvukovaja tehnologija povyshenija produktivnosti nizkodebitnyh skvazhin. M.S. Mullakaev, V.O. Abramov, A.A. Pechkov, I. L. Eremenko, V.M. Novotorcev, V.M. Bajazitov, I. B. Esipov, D.A. Baranov, A.A. Saltykov. Neftepromyslovoe delo. 2012, nо. 4, рр. 25–31.
9.
Kompleks oborudovanija i sonohimicheskaja tehnologija vosstanovlenija produktivnosti neftjanyh skvazhin. V.O. Abramov, M.S. Mullakaev, V.T. Kalinnikov, A.V. Abramova, V.M. Bajazitov, I.B. Esipov, A.A. Saltykov, Ju.A. Saltykov. Neftepromyslovoe delo, 2012, nо. 9, рр. 25–30.
10.
Kompleksnye shemy ul’trazvukovogo vozdejstvija na plasty Samotlorskogo mestorozhdenija. T.K. Apasov, V.O. Abramov, M.S. Mullakaev, Ju.A. Saltykov, G.T. Apasov, R.T. Apasov. Nauka i TJeK, 2011. Nо. 6, рр. 80–84.

Analysis of the results of double hydrofracturing via production wells
Drilling and development of hydrocarbon fields

Authors: Marina V. MITROFANOVA graduated from Almetyevsk State Oil Institute in 2005. She is a graduate student of the Department of Development and Exploitation of Oil Fields Gubkin Russian State University of Oil and Gas. E-mail: mitrofanovamv@gmail.com

Abstract: The article discusses the results of the re-fracturing via production wells. The efficiency of re-fracturing combinations is considered. The effectiveness of the geological and technical measures to increase oil recovery is evaluated. It is shown that the reason for the re-fracturing is often a decrease in productivity of the well after the initial fracture due to the gradual deterioration of reservoir properties with time.

Index UDK: 622.276.66

Keywords: hydraulic fracturing (frac), repeated fracturing, efficiency evaluation

Bibliography:
1. Jekonomides M., Olini R. Unificirovannyj dizajn gidrorazryva plasta. Ot teorii k praktike. Izhevsk: Institut komp’juternyh issledovanij, 2007, 234 р.
2. Hubber M.K., Willis D.G. Mechanics of Hydraulic Fracturing. Trans. AIME 210, 1957, рр. 153–166.
3. Hunt
J.L., Soliman, M.Y. Reservoir Engineering Aspects of Fracturing High-Permeability Formations. Paper SPE 28803, 1994.
4. Wright C.A. Hydraulic fracture re-orientation in primary and secondary recovery from low-permeability reservoirs. Paper SPE 30484, 1995.
5. Sabitov R.R., Korotenko V.A. Teorija raspoznavanija obrazov v neftegazopromyslovoj praktike. Neftegazovoe delo, 2011, no. 5.
6. Kulikov A.N., Zaharov V.P. Rezul’taty faktornogo analiza jeffektivnosti metodov intensifikacii dobychi nefti i ih vlijanija na konechnuju nefteotdachu plastov. Jelektronnyj nauchnyj zhurnal “ISSLEDOVANO V ROSSII”. URL: http: zhurnal.ape.relarn.ru.articles.2005223.pdf (data obrashhenija: 18.02.2013).
7. Kanevskaja R.D. Matematicheskoe modelirovanie razrabotki mestorozhdenij nefti i gaza s primeneniem gidravlicheskogo razryva plasta. M.: OOO Nedra-Biznescentr, 1999, 212 р.
8. Konstantinov S.V., Gusev V.I. Tehnika i tehnologija provedenija gidravlicheskogo razryva plastov za rubezhom. M.: VNIIOJeNG, 1985, 61 р.

Specific Physical and Chemical Characteristics of Gas Condensates of Chayanda Gas Field
Drilling and development of hydrocarbon fields

Authors: Natalya M. PARFENOVA graduated from Turkmen polytechnic Institute in 1971. Candidate of Chemical Sciences, senior researcher of Laboratory of complex research of hydrocarbon systems of the Center of research oil and gas reservoir systems and technological modeling OOO “Gazprom Vniigaz”. Spesialist in the field of petrochemistry. She is author of 83 scientific publications. E-mail: N_Parfenova@vniigaz.gazprom.ru
Lidia S. KOSYAKOVA graduated from Moscow Institute of the chemical technology named M.V. Lomonosov in 1978. Senior researcher of Laboratory of complex research of hydrocarbon systems of the Center of research oil and gas reservoir systems and technological modeling OOO “Gazprom Vniigaz”. Spesialist in the field of gas-liquid chromatography of hydrocarbon fluids. She is author of 27 scientific publications. E-mail: L_Kosyakova@vniigaz.gazprom.ru
Evgeniy B. GRIGORIEV graduated from Grozny oil Institute named M.D. Millionszhikov in 1990. Doctor of Technical Sciences, academician of the Russian engineering Academy, the Russian Federation government prize in the field of science and technology, deputy head of the Center of research oil and gas reservoir systems and technological modeling OOO “Gazprom Vniigaz”. Spesialist in the field of the process of heat-mass exchange and thermo physical properties of substances and materials. He is author of 72 scientific publications. E-mail: E_Grigoriev@vniigaz.gazprom.ru
Ildar M. SHAFIEV graduated from Astrakhan State technical University in 1998, Gubkin Russian State University of Oil and Gas in 2008, head of Laboratory of complex research of hydrocarbon systems of the Center of research oil and gas reservoir systems and technological modeling OOO “Gazprom Vniigaz”. Spesialist in the field of thermodynamic studies of reservoir fluids. He is author of 17 scientific publications. E-mail: I_Shafiev@vniigaz.gazprom.ru
Aleksey E. RYZHOV graduated from Moscow Institute of petrochemical and gas industry named I.M.Gubkin in 1982. Candidate of Geological and mineralogical Sciences, director of the Center of research oil and gas reservoir systems and technological modeling OOO “Gazprom Vniigaz”. Spesialist in the field of studies of reservoir systems — reservoir rocks and contained in them fluids. He is author of 37 scientific publications. E-mail: A_Rizhov@vniigaz.gazprom.ru

Abstract: The physical and chemical characteristics of gas condensates of four exploration wells of three productive horizons of Chayanda gas field are studied. The features of fractional content, hydrocarbon type content and component composition are shown. The issue of the rational management of gas condensates is considered.

Index UDK: 553.981

Keywords: gas condensate, physicochemical properties, fractional composition, group composition, composition of the hydrocarbon, gasoline fractions, gas-liquid chromategraphy

Bibliography:
1. Ljugaj D.V. Osobennosti osvoenija i proektirovanija razrabotki Chajandinskogo NGKM// Gazovaja promyshlennost'. – 2010. – No. 14. – S. 56–58.
2. Chahmahchev V.A. Geohimicheskie i paleogeotermicheskie aspekty ocenki perspektiv neftegazonosnosti//Geologija nefti i gaza. – 1994. – No. 6. – S. 31–37.

Ways to increase oil extraction by stimulating fields with elastic waves of different frequencies
Drilling and development of hydrocarbon fields

Authors: Yaropolk M. BAZHALUK was born in 1942; he graduated from the Lviv Polytechnic Institute in 1967. He is senior researcher at the Research Institute of Petroleum Energy and Environmental Studies at Ivano-Frankovsk National Technical University of Oil and Gas. He is author of 25 scientific papers in the field of enhanced recovery of hydrocarbons. E-mail: yaropolkbazhaluk@gmail.com
Oleg M. KARPASH was born in 1949; he graduated from the Ivano-Frankovsk Oil and Gas Institute in 1972. He is Vice Rector of Ivano-Frankovsk National Technical University of Oil and Gas, author of 334 scientific papers in various fields of science and technology. E-mail: karpash@nung.edu.ua
Jaroslav D. KLIMISHIN was born in 1935, he graduated from the Stanislav Pedagogical Institutes (1956) and the Moscow Institute of Steel and Alloys (1981). He is Senior Fellow in the development and operation of oil and gas fields in Ivano-Frankovsk National Technical University of Oil and Gas, author of 26 scientific papers in the field of enhanced recovery of hydrocarbons. E-mail: karpash@nung.edu.ua
Alexander I. GUTAK was born in 1986; he graduated from the Ivano-Frankovsk National Technical University of Oil and Gas in 2008. He is Assistant Lecturer at the Department of Development and Exploitation of Oil and Gas Fields in Ivano-Frankovsk National Technical University of Oil and Gas. He is author of 13 scientific papers in the field of enhanced recovery of hydrocarbons. E-mail: gutako@gmail.com
Nicolai V. HOUDIN was born in 1985, he graduated from the Ivano-Frankovsk National Technical University of Oil and Gas in 2008, and he is Assistant Lecturer of the Department of Development and Exploitation of Oil and Gas Fields in Ivano-Frankovsk National Technical University of Oil and Gas. He is author of 11 scientific papers in the field of enhanced recovery of hydrocarbons. E-mail: kh.red@mail.ru

Abstract: Studies on the effect of elastic waves in the dead zones in the oil reservoir to enhance oil recovery factor are still at an early stage. The aim of this work is the theoretical and experimental study of the effect of elastic waves of different frequencies to filter water – oil mixture in the bottom hole zone and inter-well reservoir zones, and as a result, an increase the productivity of oil wells and oil recovery factor in oil fields.

Index UDK: 622.276.6

Keywords: elastic vibrations, filtration, oil

Bibliography:
1. Gorbachev Ju.I. Akusticheskoe vozdejstvie i povyshenie rentabel’nosti razrabotki neftjanyh mestorozhdenij//NTV Karotazhnik. — 2000. — No. 60.
2. Kuznecov O.L., Efimova S.A. Primenenie ul’trazvuka v neftjanoj promyshlennosti. — M.: Nedra, 1983. — S. 37.
3. Kudinov V.I., Suchkov B.M. Metody povyshenija proizvoditel’nosti skvazhin. — Samara, 1996.
4. Brammer Ju.A., Pawuk I.N. Impul’snaja tehnika. — M.: Vysshaja shkola, 1965. — S. 8.
5. Bazhaluk Ja.M., Karpash O.M. ta іn. Doslіdzhennja akustichnih vlastivostej menіlіtovih vіdkladіv//Naftogazova energetika. — 2008 — No. 4. — S. 53–56.
6.
Krutin V.N. Mehanizm akusticheskoj intensifikacii pritokov nefti iz produktivnyh plastov// NTV Karotazhnik. — 1998. — No. 42.
7. Gorbachev Ju.I. Fiziko-himicheskie osnovy ul’trazvukovoj ochistki prizabojnoj zony neftjanyh skvazhin//NTV Karotazhnik. — 1999. — No. 57.
8. Sharp R. Metody nerazrushajuwih ispytanij. — M.: Mir, 1972. — S. 470.
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11. Patent Ukrainy 63412, 25.07.2007.
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13.
Voronova E.V. Rezul’taty primenenija vibroudarnyh i vibrosejsmicheskih tehnologij povy-shenija nefteotdachi na mestorozhdenijah Uralo-Povolzh’ja// Neftegazovoe delo. — 2006. — No. 2.
14. Surguchev M.L., Kuznecov O.L., Simkin Je.M. Gidrodinamicheskoe, akusticheskoe, teplovoe ciklicheskoe vozdejstvie na neftjanye plasty. — M.: Nedra, 1975. — S. 77.
15. Patent Ukrainy 87872, 25.08.2009.
16. Bazhaluk Ja.M., Karpash O.M. ta іn. Ocіnka efektivnostі іmpul’sno-hvil’ovih dіj na procesi naftovitiskannja u plastі// Naftogazova energetika. — 2008. — No. 2. — S. 5–10.
17.
Sheriff R., Geldart L. Sejsmorazvedka. — M.: Mir, 1987. — S. 116.
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Development of physical and chemical stimulation methods to increase oil recovery
Drilling and development of hydrocarbon fields

Authors: Michael A. SILIN is Doctor of Sciences, Professor, and Head of the Department of Technology of Chemicals for Oil and Gas Industry. He is the first Vice Rector for Strategic Development of Gubkin Russian State University of Oil and Gas. He is author of over 200 scientific and methodical publications, and more than 40 patents. E-mail: silin@gubkin.ru
Dmitry Y. ELISEEV was born in 1976; he graduated from the Almetyevsk Oil Institute in 1998. He is Head of the Research and Education Center «Chemistry for Oil and Gas production» of the Department of Technology of Chemicals for Oil and Gas Industry at Gubkin Russian State University of Oil and Gas. He is author of more than 40 published scientific papers and two patents. E-mail: eliseev.d@gubkin.ru
Alexander N. KULIKOV was born in 1958; he graduated from the Ufa Oil Institute in 1980. He is working at the «RN-UfaNIPIneft» as a leading researcher. He is author of over 50 scientific publications and 8 patents. E-mail: kulikov@ufanipi.ru

Abstract: A new method of physical and chemical stimulation of oil reservoirs to enhance oil recoery is developed. This method is based on the formation of gels in a remote area of the reservoir, which allows developing oil reserves concentrated in the inter-well space. The main approaches to the planning of enhanced oil recovery, depending on the stage of development of the field are shown on the basis of tests results and calculations.

Index UDK: 622.323

Keywords: enhanced oil recovery, physical and chemical methods of influence, SiX

Bibliography:
1. Khasanov M.M., Ismagilov T.A., Mangazeev V.P., Rastrogin A.E., Kol’chugin I.S., Tyan N.S. Neftyanoe khozyaystvo. — Oil industry, 2002, No. 7. — РР. 110–112.
2.
Silin M.A., Eliseev D.Ju., Kulikov A.N. Materialy Rossijskoj neftegazovoj tehnicheskoj konferencii SPE (Proc. SPE conference oil and gas), — Moscow, 2010. — РР. 98–100.
3.
Eliseev D.Ju, Kulikov A.N. Neft’. Gaz. Novacii. — Oil, Gas, innovations. — 2010. — No. 7. — РР. 55–61.

Improving information and measurement technologies in oil and gas production
Drilling and development of hydrocarbon fields

Authors: Evgeny N. BRAGO was born in 1929. Graduated from the Moscow Power Engineering Institute in 1953. He is Professor of the Department of Automation of Technological Processes at Gubkin Russian State University of Oil and Gas, Doctor of Technical Sciences. Author of 220 scientific works in the field of information technology and technical tools of accounting and control of the flow of oil and gas in the production and transport. E-mail: nga@gubkin.ru
Oleg V. ERMOLKIN was born in 1956. Graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1978. He is Professor, Head of the Department of Information and Measurement Systems of Gubkin Russian State University of Oil and Gas, Doctor of Technical Sciences. He has published 76 scientific papers in the field of measurement of multiphase flow of oil and gas production wells. E-mail: ove@gubkin.ru
Grigory A. LANCHAKOV was born in 1948. Graduated from Ufa Oil Institute in 1971. He is Chief Engineer of “Gazprom Dobycha Urengoy”. He is PhD, author of over 400 scientific papers in the field of development and operation of oil and gas deposits. E-mail: nga@gubkin.ru
Dmitri N. VELIKANOV was born in 1972. Graduated from the Gubkin State Academy of Oil and Gas in 1994. He is Associate Professor of the Department of Automation of Technological Processes at Gubkin Russian State University of Oil and Gas, PhD. Author of 21 scientific works in the field of measurement of multiphase flow of oil and gas production wells. E-mail: velikanov@gubkin.ru
Michael A. GAVSHIN was born in 1962. Graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1984. He is engineer of the Department of Information and Measurement Systems of Gubkin Russian State University of Oil and Gas. He is author of 21 scientific works in the field of measurement of multiphase flow of oil and gas production wells. E-mail: gavshin@gubkin.ru

Abstract: The article is devoted to the improvement of information management technologies for developing oil and gas deposits. It summarizes the experience of solving the problems of measurement of multiphase products of production wells, shows the effectiveness of the measurement systems of the «Potok» series developed by the researchers of Gubkin Russian State University of Oil and Gas. New ways to measure the amount of impurities in the flow of the wells products are proposed and investigated, the tests of the technical solutions found for field conditions showed positive results. The ways of further improving the measurement systems are proposed.

Index UDK: 622.279+532.57

Keywords: spectrometric method for measuring flow, pressure fluctuations, multiphase flow, information-control systems, multivariable transmitter, temperature stability, flow measurement, flow rate of impurities

Bibliography:
1. Innovacionnye tehnologii kontrolja rezhima raboty skvazhin s ispol'zovaniem IIS «Potok»// Gazovaja promyshlennost'. – 2008. – № 8. – Р. 29–34.
2. Kontrol' rezhima jekspluatacii skvazhin Krajnego Severa: problemy i perspektivy ih reshenija na osnove novyh informacionnyh tehnologij//OI, M.: OOO «IRC Gazprom». – 2002. – 60 p.
3. Razrabotka i issledovanie izmeritel'nogo preobrazovatelja pul'sacij davlenija dlja reshenija zadach izmerenija rashoda//Trudy RGU nefti i gaza imeni I.M. Gubkina. – 2011. – № 3. – Р. 112–126.

Industrial simulators to test the skills of blowups identification and elimination during drilling and workover
Drilling and development of hydrocarbon fields

Authors: Vladimir S. KUVYKIN graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1966. He is Ph.D., associate professor of of the Department of Applied Mathematics and Computer modeling of Gubkin Russian State University of Oil and Gas. He is supervising the development of the methods of training of oil and gas specialists using computerized technology. He is the developer of simulators for identifying and eliminating blowups, author of over 30 scientific publications, winner of the IM Gubkin prize. E-mail: mgala99@mail.ru
Galina V. MIKHALEVA graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1971. She is Ph.D., senior researcher at the Department of Applied Mathematics and Computer Modeling Gubkin Russian State University of Oil and Gas. She is an expert in the field of mathematical modeling of hydrodynamic processes in oil and gas wells, co-author of computer software and hardware and computer simulators for recognition and elimination of blowouts. She is author of over 20 scientific publications, winner Gubkin Prize. E-mail: mgala99@mail.ru

Abstract: Two industrial simulators on the basis of training wells are considered. The simulators are used to train the staff of workover crews to detect and eliminate blowups. Training tasks are performed by a crew using the operating equipment of real well with additional devices connected to the computer. Both simulators take into account the specific character of the equipment of each well, allow to set a wide range of initial parameters of the equipment and those of well design, and also allow year-round operation. This technology greatly reduces the training time and increases its efficiency.

Index UDK: 622.816, 622.248.3, 517.958:532.5

Keywords: workover, eliminate blowup, industrial simulator, movement of gas-liquid mixtures

Bibliography:
1. Pravila bezopasnosti v neftjanoj i gazovoj promyshlennosti. PB 08-624-03. – M.: Gosgortehnadzor Rossii, 2003.
2. Rukovodstvo po preduprezhdeniju i likvidacii gazoneftevodoprojavlenij pri stroitel'stve i remonte skvazhin. STO Gazprom 2-3.2-193-2008. – M.: OAO «Gazprom», OAO «SevKavNIPIgaz», 2008.
3. Polozhenie po organizacii obuchenija i attestacii personala dochernih obwestv i organizacij OAO «Gazprom» v oblasti preduprezhdenija i likvidacii gazoneftevodoprojavlenij pri stroitel'stve, jekspluatacii i remonte skvazhin (STO RD Gazprom 39-1.2-086-2003) – M.: OOO «IRC Gazprom», 2003.
4. Kuvykin V.S., Mihaleva G.V. Promyshlennyj trenazher po raspoznavaniju i likvidacii gazoneftevodoprojavlenij pri kapital'nom remonte skvazhin//Upravlenie kachestvom v neftegazovom komplekse. – 2006. – № 4.
5. Avetisov A.G., Chudnovskij D.M., Hlebnikov S.R. Novyj podhod k modelirovaniju gidrodinamicheskoj obstanovki v skvazhine pri fontanirovanii gazoobraznogo fljuida//Tr. KubGTU, t. XIX. – Ser. «Neftepromyslovoe delo». – Vyp 3. – Krasnodar: KubGTU, 2002.
6. Avetisov A.G., Chudnovskij D.M., Hlebnikov S.R. Modelirovanie gidrodinamicheskoj obstanovki v skvazhine v processe glushenija gazovogo fontana metodom zakachki tjazheloj zhidkosti// Tr. KubGTU, t. XIX. – Ser. «Neftepromyslovoe delo». – Vyp 3. – Krasnodar: KubGTU, 2002.

Information-measuring system of operational infrared analysis of the mineral composition of drilling mud
Drilling and development of hydrocarbon fields

Authors: Anatoly S. MOISEENKO was born 1931. In 1956 he graduated from Gubkin Moscow Petroleum Institute, specializing as mining engineer and geophysicist, in 1961 he graduated from National Power Engineering Institute, specializing in Automation and Remote Control. He is Doctor of Technical Sciences, Professor of the Department of Information Measuring Systems of the Faculty of Computer Science and Engineering of Gubkin Russian State University of Oil and Gas. He is author of 111 scientific papers, including 2 monographs, Honored Worker of Science of the Russian Federation. He has prepared six candidates of sciences. Е-mail: asu@gubkin.ru
Victor G. KOMANDROVSKY was born in 1932. Iin 1955 he graduated from the Moscow Power Engineering Institute in the specialty of “Electric mathematical machines and devices”. In 1961 he completed a course of studies at the IPMCE graduate school at the Academy of Sciences of the USSR. He is Doctor of Technical Sciences, Professor of the Department of Automated Control Systems at the faculty of Computer Science and Engineering of Gubkin Russian State University of Oil and Gas. He is an expert in the field of certification of information technology and software, author of 128 scientific and educational works, including 47 teaching aids and 68 research papers, 11 authors’ certificates and 2 patents for utility models. He was awarded the medal “Veteran of Labor”, prepared two candidates of sciences. Е-mail: asu@gubkin.ru

Abstract: The approaches to the infrared spectral analysis of mud in the sloughs of clay in the process of well drilling are considered. In one approach infrared analysis is terminated while drilling continues. In other approaches analysis is conducted both under collapsing clay, and shows of different rock. The analysis is carried out without regard to the clay but with definition of rock graduation or, under grades (25–75)% and (10–90)%, penetration is carried out with the analysis of individual minerals and given its past history.

Index UDK: 622.276:681.5

Keywords: drilling, well, infrared spectral analysis, mud, rock, clay, slough

Bibliography:
1. Apparatura dlja polevogo operativnogo analiza gornyh porod/A.S. Moiseenko, L.I. Orlov, G.K. Bogatkin, V.V. Strel'chenko, V.G. Komandrovskij, I.V. Egorova//Pribory. – 2003. – № 11 (41). – Р. 21–27.
2. Komandrovskij V.G., Moiseenko A.S. O vlijanii fona pri identifikacii mineral'nogo sostava gornoj porody s pomow'ju infrakrasnogo fil'trovogo analizatora//Avtomatizacija, telemehanizacija i svjaz' v neftjanoj promyshlennosti. – M.: VNIIOJЕNG, 2008. – № 2. – Р. 14–19.
3. Egorova I.V., Komandrovskij V.G., Moiseenko A.S. Ustrojstvo dlja opredelenija sostava gornoj porody v processe burenija skvazhiny. – Bjulleten' izobretenij, №23, 20.08.2008. Patent na poleznuju model' RU №75691 U1.
4. Komandrovskij V.G. Metodologicheskie principy informatizacii issledovanija ob’ektov neftegazovoj otrasli kak slozhnyh sistem. – M.: Neft' i gaz, 2003. – 140 p.
5. Komandrovskij V.G., Moiseenko A.S. Ispol'zovanie metodov raspoznavanija obrazov dlja povyshenija dostovernosti rezul'tatov operativnogo infrakrasnogo spektral'nogo analiza gornyh porod// Avtomatizacija, telemehanizacija i svjaz' v neftjanoj promyshlennosti. – M.: VNIIOJЕNG, 2002. – № 9. – Р. 4–7.
6. Komandrovskij V.G. Informativnost' differencial'nyh harakteristik podshipnikov//Avtomatizacija, telemehanizacija i svjaz' v neftjanoj promyshlennosti. – M.: VNIIOJeNG, 2011. – № 12. – Р. 38–41.

Viscous flow in a cylindrical channel with surface coated with porous layer
Drilling and development of hydrocarbon fields

Authors: Anatoly N. FILIPPOV was born in 1960. Graduated from the M.V. Lomonosov Moscow State University. University in 1982. He is Doctor of Physical and Mathematical Sciences, Professor of the Department of Higher and Applied Mathematics of Gubkin Russian State University of Oil and Gas. He is author of over 200 scientific papers in the field of physical and chemical mechanics and colloid chemistry. E-mail: filippov.a@gubkin.ru
Daria Y. HANUKAEVA graduated from Moscow Institute of Physics and Technology in 1999. She is Ph.D. in Physics and Mathematics, Associate Professor of the Department of Higher Mathematics at Gubkin Russian State University of Oil and Gas. She is author of more than 20 publications in the field of mechanics and mathematics. E-mail: khanuk@yandex.ru
Vasily V. KALININ was born in 1952. Graduated from the M.V. Lomonosov Moscow State University in 1974. He is Doctor of Physical and Mathematical Sciences, Professor of the Department of Mathematics at Gubkin Russian State University of Oil and Gas. He is author of more than 60 scientific papers in the field of mechanics and mathematics. E-mail: vm@gubkin.ru

Abstract: The flow of viscous incompressible fluid in a long cylindrical pore, with the inner surface covered with a permeable porous layer is considered in two mathematical models. The first of these uses the Brinkman equation for the porous layer and the second replaces the porous layer with Navier-slip condition on the wall of the pore. The feasibility and validity of the proposed models to calculate the displacement of oil from porous media are discussed

Index UDK: 532.546.2

Keywords: porous layer, viscous liquid, Brinkman equation, length of slip, model descripttion

Bibliography:
1. Lamb H. Hydrodynamics. New York: Dover, 1932. – 604 р.
2. Hunter R.J. Foundations of Colloid Science. Oxford: Oxford University Press, 1993. – 276 р.
3. Churaev N.V., Sobolev V.D., Somov A.N. Slippage of liquids over lyophobic solid surfaces// J. Colloid Interface Sci. – 1984. – Vol. 97(2). – P. 574–581.
4. Kiseleva O.A., Sobolev V.D., Churaev N.V. Slippage of the Aqueous Solutions of Cetyltri-methylammonium Bromide during Flow in Thin Quartz Capillaries//Colloid J. – 1999. – Vol. 61. – № 2. – Р. 281–288.
5. Vinogradova O.I., Yakubov G.E. Surface roughness and hydrodynamic boundary conditions// Phys. Rev. E. – 2006. – Vol. 73. – P. 045302.
6. Techenie rastvorov v tonkih kapilljarah, pokrytyh adsorbcionnym sloem polijelektrolita/ O.A. Kiseleva, V.D. Sobolev, D.A. Semenov, A.P. Ershov, I.P. Sergeeva, N.V. Churaev//Kolloid. zhurn. – 2009. – Vol. 71. – P. 72–77.
7. Techenie zhidkosti vnutri cilindricheskogo kapilljara, stenki kotorogo pokryty poristym sloem (gelem)/A.N. Filippov, D.Ju. Hanukaeva, S.I. Vasin, V.D. Sobolev, V.M. Starov//Kolloid. zhurn. – 2012. (otpravleno v pechat').
8. Starov V.M., Zhdanov V.G. Effective properties of suspensions/emulsions, porous and composite materials//Advances Colloid and Interface Sci. – 2008. – Vol. 137. – P. 2–19.
9. Navier C.L.M.H. Mémoire sur les lois du mouvement des fluides//Mémoires de l’Académie Royale des Sciences de l’Institut de France. – 1827. – Vol. 6. – P. 389–416.
10. Мatthews M.T., Hill J.M. Flow around nanospheres and nanocylinders//Quart. J. Mech. & Appl. Math. – 2006. – Vol. 59. – P. 191–210.

Determination of time-dependent thermophysical properties of fluids
Drilling and development of hydrocarbon fields

Authors: Gafar T. HASANOV was born in 1935. He graduated from the Physics and Mathematics Department of Azerbaijan State University in 1957. He is Head of the Department of Physics of the Azerbaijan State Oil Academy, doctor of technical sciences, professor. He is author 367 scientific papers in the field of hydrodynamics and thermal physics. E-mail: biblioteka@gubkin.ru
Aynur N. JAFAROVA graduated from the Faculty of Physics of Azerbaijan State University in 1997. She is Ph.D., senior laboratory assistant of the Department of Physics of Azerbaijan State Oil Academy. She is author of 15 scientific papers in the field of thermal physics. E-mail: biblioteka@gubkin.ru
Natavan A. SALAYEVA graduated from the Faculty of Chemistry of the Azerbaijan State Oil Academy in 2004. She is currently preparing her dissertation at the Department of Physics of the Azerbaijan State Oil Academy. She is author of 6 scientific articles in the field of thermal physics. E-mail: biblioteka@gubkin.ru

Abstract: Currently, there are numerous methods for studying thermophysical properties of liquids, which are based on steady-state processes. For non-stationary processes, these parameters vary with time and this paper offers a new method for the study of these «transient parameters» of liquids.

Index UDK: 536.2+536.634

Keywords: heat capacity, viscosity, fluid temperature field, thermal and physical properties

Bibliography: