Articles Archive

№ 4/281, 2015

Title
Authors
Category
Principles of construction of instrumental control of industrial electrical system stability
Technical sciences

Authors: Andrei V. EGOROV was born in 1957. Нe graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1980. He is Head of the Department of Theoretical Electrical Engineering and Electrification of Oil and Gas Industry of Gubkin Russian State University of Oil and Gas. He is Dean of the Faculty of Postgraduate Education. He is Doctor of Technical Sciences, professor of the Department of Theoretical Electrical Engineering and Electrification of Oil and Gas Industry. He is Scientific Secretary of the Doctoral Dissertation Council of Gubkin Russian State University of Oil and Gas. He is author of more than 140 publications and 3 patents. E-mail: egorov.a@gubkin.ru
Stanislav L. LENARTOVICH was born in 1993. He graduated from Gubkin Russian State Oil and Gas University in 2015. He is Post-graduate student of the Department of Theoretical Electrical Engineering and Electrification of Oil and Gas Industry of Gubkin Russian State University of Oil and Gas. E-mail: pepatko_man@yahoo.com
Igor U. KHRABROV was born in 1967. He graduated from Gubkin Moscow Institute of Oil and Gas in 1991. He is Associate Professor of the Department of Information and Measurement Systems at Gubkin Russian State University of Oil and Gas. He is Dean of the Faculty of Automation and Computer Engineering, Candidate of Technical Sciences. He is author of 19 scientific works and 2 patents in the field of measurement of multiphase flows of oil and gas production wells. E-mail: khrabrov@gubkin.ru

Abstract: The article is devoted to solving the problem of stability control of complex electrical systems (CES) of objects of oil and gas industry. Currently used standard means of protection of undervoltage nodes of electric propulsion load to control CES stability are shown to be inefficient. The impact of CES buckling for objects of oil and gas industry is described. The proposed approach to sustainability assessment is based on the analysis of the energy performance of the electrical system. The value of proper energy being the determining measure, which is functionally linked to the value of current-voltage phase angle for the fundamental harmonic voltage, it is proposed to measure the value of phase angle in the inlet of CES load nodes in order to control the stability of industrial electrical systems. The block diagram of phase angle measurement unit and the algorithm of interation with the automated control system of the electric power supply are presented

Index UDK: УДК 621.31

Keywords: еlectrotechnical system, stability of electrotechnical systems, proper energy of electrotechnical systems, current-voltage phase angle

Bibliography:
1. Ershov M.S., Egorov A.V., Trifonov A.A. Ustojchivost’ promyshlennyh jelektrotehnicheskih system, M.: Nedra, 2010.
2. Beljaev A.V. Protivoavarijnoe upravlenie v uzlah nagruzki s sinhronnymi jelektrodvigateljami bol’shoj moshhnosti. M.: Jenergoprogress, 2004.
3. Ershov M.S., Egorov A.V., Odinec A.S. Jenergeticheskie pokazateli ustojchivosti asinhronnyh mnogomashinnyh promyshlennyh kompleksov. Promyshlennaja jenergetika, 1999, no. 2.
4. Ershov M.S., Malinovskaja G.N., Trifonov A.A. Funkcional’nye zadachi ASU jelektrosnabzheniem. Ocenka nadezhnosti i operativnyj raschet rezhimov sistem jelektrosnabzhenija. Territorija NEFTEGAZ, 2010, no. 6.
5. Ershov M.S., Rupchev I.O. Adaptacija zashhit uzlov jelektricheskih nagruzok k potere pitanija pri nesimmetrichnyh vozmushhenijah. Promyshlennaja jenergetika, 2004, no. 1.

Strategy and conditions for reorganization of corporate r&d activities of vertically integrated oil companies
Technical sciences

Authors: Alexander F. ANDREEV has ended the Moscow institute of the petrochemical and gas industry of I.M. Gubkin in 1975 the Doctor of Economics, the professor managing chair of industrial management РГУ of oil and gas of I.M. Gubkin. The expert in the field of management of projects, estimations of efficiency of investments, optimisation of administrative decisions in sphere of searches, investigations and workings out of deposits of hydrocarbonic raw materials. The author and the co-author of 275 scientific and educational publications. E-mail: pro_men@list.ru
Alexander A. SINELNIKOV graduated from Moscow Institute of Petrochemical and Gas Industry in 1966 and later completed a post-graduate course at Institute of Management Research of the Russian Academy of Sciences. He is Candidate of Technical Sciences, assistant-professor of the Dept. of Production Management. He is specialist in the field of management, decision sciences and optimization. He is author and co-author of more than 80 scientific publications.
E-mail: sinelnikov_rgung@mail.ru

Abstract: The study of problems of implementation of strategies of technological development of vertically integrated oil companies (VIOC) revealed lack of methodological support of the organization of management of R&D as well as engineering activities. This may cause serious errors in the development of strategic plans for sustainable development of companies. The paper offers methodical approach to prepare solutions of reorganization of the R&D complex and and transform it into an engineering unit of a VIOC

Index UDK: УДК 338.2+334.7

Keywords: vertically integrated oil company, strategy, R&D complex, reorganization, engineering

Bibliography:
1.Andreev A.F., Sinelnikov A.A. Management innovative processes at the enterprises of an oil and gas complex. М: MAX Press, 2008, р. 244.
2. Sinelnikov A.A. Implementation of the strategic approach to the management of technological development of oil and gas companies. M.: Russian state University of oil and gas named after I.M. Gubkin, 2013, no. 3, р. 119-137.

Development of standard rating scales to determine readiness of personnel to perform high risk work
Technical sciences

Authors: Elena V. GLEBOVA graduated from Gubkin Russian State University of Oil and Gas in 1972, she is Doctor of Technical Sciences, professor of the Department of Industrial and Occupational Safety. She is author of more than 40 scientific publications.
E-mail:elena.glebova50@mail.ru
Alla T. VOLOKHINA graduated from Gubkin Russian State University of Oil and Gas in 1996, she is Candidate of Technical Sciences, associate professor of the Department of Industrial and Occupational Safety. She is author of more than 30 scientific publications. E-mail: alla_volohina@mail.ru
Tatyana N. GUSKOVA graduated from Gubkin Russian State University of Oil and Gas in 2011; she is postgraduate student of the Department of Industrial and Occupational Safety. E-mail: polyasheva@gmail.com
Mikhail A. GUSKOV graduated from Gubkin Russian State University of Oil and Gas in 2011; he is assistant of the Department of Industrial and Occupational Safety. He is author of more than 10 scientific publications. E-mail: m.a.guskov@gmail.com

Abstract: Numerous studies in the field of assessing the impact of human factor on the accident rate in oil and gas production facilities show that the effectiveness of performing high risk work is defined not only by the level of professional training, but also by the level of development of professionally important qualities (PIQ) of employees. The development of methods for assessment of profession- nally important qualities of drifters of plots of excavation and extension of mine workings in the process of heavy oil mining based on the case of Oil Mine Directorate „Yareganeft” of OOO „LUKOIL-Komi” will allow to develop unified methodological approaches to assess the readiness of personnel to perform high risk work

Index UDK: УДК 622.8

Keywords: heavy oil, hazardous production facilities of oil extraction, assessment of level of professionally important qualities

Bibliography:
1.Polishhuk Ju.M., Jashhenko I.G. Vysokovjazkie nefti: analiz prostranstvennyh i vremennyh izmenenij fiziko-himicheskih svojstv [Jelektronnyj resurs]//Jelektronnyj nauchnyj zhurnal „Neftegazovoe delo” [Ofic. sajt]. URL: http://ogbus.ru/article/vysokovyazkie-nefti-analiz-prostranstvennyx-i-vremennyx-izmenenij-fiziko-ximicheskix-svojstv/(data obrashhenija: 06.09.2015).
2.Guljaev V. Tjazhelaja neft’ [Jelektronnyj resurs]. Jelektronnyj zhurnal „Znaj nashih!” no. 35 [Ofic. sajt]. URL: http://www.znainashix.ru/article/tyaghelaya-neft-455 (data obrashhenija: 06.09.2015).
3.Federal’nyj zakon ot 21.07.1997 no. 116-FZ (red. ot 02.07.2013) „O promyshlennoj bezopasnosti opasnyh proizvodstvennyh ob’ektov” [Jelektronnyj resurs]. Spravochno-pravovaja sistema „Konsul’tant Pljus”. URL: http://www.consultant.ru/)) (data obrashhenija 11.09.2015).
4. Glebova E.V. Reducing the risk of accidents and injuries in the oil and gas industry based on a model of professional suitability of operators: diss. doctors of tech. sciences: 05.26.03. Glebova Elena Vital’evna. M: RGB, 2009, 330 p.
5.Volokhina A.T. Industrial Security of main gas pipelines on the basis of evaluation and improvement of professionally important qualities of the major workers: diss. cand. tehn. sciences: 05.26.03. Volokhina Alla Tagirovna. M: RGB, 2009, 200 p.
6.Ivanova M.V. Development of a method to reduce the risk of accidents and injuries in the gas industry on the basis of professional selection of operators on the example of the operators of gas production: diss. cand. techn. sciences: 05.26.01. Maria V. Ivanova. M: RGB, 2003, 138 p.

Possibilities of mid-ir-spectroscopy to analyze diesel fuels
Chemical sciences

Authors: Olga V. PRIMEROVA graduated from Gubkin Russian State University of Oil and Gas in 2015. Еngineer of department of Organic chemistry and petroleum chemistry of the Gubkin Russian State University of Oil and Gas, author of 18 publications in the field chemistry of oil. E-mail: Primerova92@yandex.ru
Ludmila V. IVANOVA graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1983. She is Associate Professor of the Department of Organic Chemistry and Petroleum Chemistry of Gubkin Russian State University of Oil and Gas. She has authored 98 scientific publications in the field of chemistry of oil. E-mail: ivanova.l@gubkin.ru
Vladimir N. KOSHELEV born in 1953. He graduated from Gubkin Moscow Institute of Petrochemical and Gas Industry in 1975. He is Vice Rector for Academic Affairs, Head of the Department of Organic Chemistry and Petroleum Chemistry of Gubkin Russian State University of Oil and Gas. He is author of over 310 scientific papers in the field of organic and petroleum chemistry.
E-mail: koshelev.v@gubkin.ru
Yegor A. BUROV was born in 1987. Нe defended his Master’s thesis at Gubkin Russian State University of Oil and Gas in 2010. He is presently a postgraduate student of the Department of Organic Chemistry and Petroleum Chemistry of Gubkin Russian State University of Oil and Gas. He has authored 21 scientific publications in the field of chemistry of oil. E-mail: burov_egor48@mail.ru
Alexey V. YUSOVSKY born in 1994. Student of oil Processing Technologies department of the Gubkin Russian State University of Oil. Author of 2 publications in the field chemistry of oil. E-mail: Jusovskijj94@yandex.ru

Abstract: The possibilities of infrared spectroscopy in the analysis of the hydrocarbon composition of diesel fuel are described and relationships between the composition and properties are established. The focus is on detailed study of the structure of paraffin and naphthenic hydrocarbons and their influence on the low temperature properties of diesel fuels e.g. filterability limit temperature and pour point. The data on various functional additives presence in diesel fuel are represented. Calibration curves to determine the concentration of additives are constructed. It is shown that the intensity of the characteristic band of the functional groups in the additive package is lower than that in solutions of individual additives

Index UDK: УДК 665.75:543.068.8

Keywords: IR spectroscopy, diesel fuel, hydrocarbon composition, low temperature properties, content of additives in fuels

Bibliography:
1.Sil’verstejn R., Bassler G., Morril T. Spektrometricheskaja identifikacija organicheskih soedinenij Per. s angl. M.: Mir, 2010, 592 р.
2.Vasilenko P.A. Apparaturno-metodicheskij kompleks dlja izmerenij soderzhanija primesej v mnogokomponentnyh uglevodorodnyh rastvorah IKAR-3. Geopolitika. Georesursy. Geojenergetika, 2010.
3.Ivanova L.V., Safieva R.Z., Koshelev V.N. Vestnik Bashkirskogo gosudarstvennogo universiteta, 2008, tom 13, no. 4, p. 869-874.
4.Kupcov A.H., Arbuzova T.V. Issledovanie tjazhelyh frakcij nefti metodom Fur’e — spektroskopii KR blizhnego IK diapazona Neftehimija, 2011, tom 51, no. 3, p. 214–222.
5.Glebovskaja
E.A., Maksimov Je.I., Petrov A.K. Kolichestvennoe opredelenie SN2-grupp v otkrytyh cepjah s chislom zven’ev ne menee chetyreh. Zhurnal analiticheskoj himii, 1959, tom 24, vyp. 4, p. 478-481.
6.Alessandra Borin, Ronei J. Poppi. Application of mid infrared spectroscopy and iPLS for the quantification of contaminants in lubricating oil. Vibrational Spectroscopy 37 (2005) 27–32.
7.Boris
Mizaikoff. Fuel Performance Specifications, Mid-infrared Analysis. Encyclopedia of Analytical Chemistry. R.A. Meyers (Ed.), 2000.
8.Berthold P., Staude V., Bernhard U. IR-spektrometrische Strukturgruppeanalyse aromatenbaltiger Mineralolprodukte. Schmierungstechnik, 1976, no. 7, p. 280.