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Authors: Vladimir F. KOBYCHEV graduated from Tyumen State Oil and Gas University in 2001. He is Deputy General Director for production and preparation of gas condensate, OOO “Gazprom Dobycha Urengoy”. He is author of more than 20 scientific publications. E-mail: v.f.kobychev@gd-urengoy.gazprom.ru
Sergey N. BABAEV graduated from Lomonosov Moscow State University in 1978. He is Candidate of Chemical Sciences, Associate Professor of the Department of Physical and Colloidal Chemistry of Gubkin Russian State University of Oil and Gas (National Research University). He is author of more than 30 scientific publications. Е-mail: sbabaev@gubkin.ru
Sergey I. KOLESNIKOV graduated from Gubkin Russian State University of Oil and Gas in 1981. He is Candidate of Chemical Sciences, Head of Laboratory of Physical and Colloidal Chemistry Department of Gubkin Russian State University of Oil and Gas (National Research University). He is specialist in the field of catalysis, processing of oil and gas and thermodynamics of phase changes. He is author of more than 25 inventions and 135 scientific publications. Е-mail: sikolesn@mail.ru
Mikhail Y. KILIANOV graduated from Gubkin Moscow Institute of Oil and Gas in 1984. He is Candidate of Chemical Sciences, senior researcher at the Department of Physical and Colloid Chemistry of Gubkin Russian State University of Oil and Gas (National Research University). He is specialist in the field of catalytic processes of oil refining. He is author of more than 80 scientific publications.
E-mail: m.kilyanov@mail.ru
Alexander V. MURADOV graduated from Azizbekov Azerbaijan State Institute of Oil and Chemistry in 1973. He is Doctor of Technical Sciences, Professor of the Department of Metallurgy and Non-Metallic Materials of Gubkin Russian State University of Oil and Gas (National Research University). He is specialist in the field of corrosion of the equipment of oil and gas complex. He is author of more than 100 scientific publications. E-mail: com@gubkin.ru

Abstract: The paper is devoted to mathematical simulation of carbon dioxide corrosion process. On the base of corrosion characteristics of industrial monitoring data during gas transportation certain regularities were revealed. Theses allowed developing a mathematical model of electrochemical carbon dioxide corrosion by the parametric method

Index UDK: 622.323

Keywords: carbon dioxide corrosion, electrochemical corrosion, gas transportation, parametric method

Bibliography:
1. Markin A.N., Nizamov R.Je. CO2-korrozija neftepromyslovogo oborudovanija. M.: OAO “VNIIOJeNG”, 2003, 188 p.
2. Erehinskij B.A., Cherrnuchin V.I., Pavlov V.A. i dr. Truby neftjanogo sortamenta, stojkie protiv uglekislotnoj korrozii. Korrozija: materialy, zashhita, 2016, no. 10, p.14-17.
3. Bukleshov D.O., Jakovlev N.G. Analiz metodiki raschjota ostatochnogo sroka jekspluatacii raspredelitel’nyh gazoprovodov s uchjotom skorosti sploshnoj korrozii okoloshovnyh zon svarnyh stykov. Neftegazovoe delo, 2016, t. 14, no. 4, p. 137-141.
4. Moiseeva L.S., Ajsin A.E. Issledovanie prichin uskorennogo korrozionnogo razrushenija neftjanyh JeCN-skvazhin. Korrozija: materialy, zashhita, 2016, no, 12, p. 1-8.
5. Kashkovskij R.V., Ibatullin K.A. Nauchno-tehnicheskie aspekty korrozionnogo razrushenija promyslovyh metallokonstrukcij v prisutstvii uglekislogo gaza. Korrolzija: materialy, zashhita, 2016, no. 11, p. 1-13.
6. Shmith G. Fundamental aspects of CO2corrosion-Advances in CO2 corrosion. NACE.HUS-TON, Texas, 1984, p. 10-19.
7. Korjakin A.Ju., Kolesnikov I.M., Kil’janov M.Ju. i dr. Soderzhanie kisloroda v vodnyh sistemah i ego vlijanie na sostojanie sistem. Territorija neftegaz, mart 2015, p. 70-74.
8. Hurshudov A.G., Sivokon’ I.S., Markin A.N. Prognozirovanie uglekislotnoj korrozii neftegazoprovodov. Neftjanoe hozjajstvo, nojabr’ 1989, p. 59-61.

2009/2
The relationship between hydrocarbon’s fractions boiling temperatures and the initial oil density
Oil and gas processing, chemistry of oil and gas

Authors: Valentina Aleksandrovna LYUBIMENKO was born in 1952. In 1974 she graduated from the Chemical faculty of М.V. Lomonosov Moscow State University. Ph.D. in Chem. Sci., the senior lecturer of the Dept. of physical and colloidal chemistry of Gubkin Russian State University of Oil and Gas. The author of 33 scientific publications. Е-mail: ljubimenko@mail.ru
Ivan Mikhailovich KOLESNIKOV was born in 1929. In 1954 he graduated from Gubkin Moscow petroleum institute (now Gubkin Russian State University of Oil and Gas). Doctor of chemistry, professor of the Department of physical and colloidal chemistry of Gubkin Russian State University of Oil and Gas. The author of more than 700 publications in the field of kinetics and catalysis. Е-mail: kolesnim@mail.ru
Vitaliy Igorevich ZUBER was born in 1974. In 1996 he graduated from Gubkin Moscow Institute of petrochemical and gas industry (now Gubkin Russian State University of Oil and Gas). He is the deputy general director of the Moscow oil refinery, the author of 9 publications.
Sergei Vyacheslavovich DIBROV was born in 1964. In 1986 he graduated from Gubkin Moscow Institute of petrochemical and gas industry (now Gubkin Russian State Univer- sity of Oil and Gas), the head technologist of the Moscow oil refinery, the author of 8 publications.
Sergey Ivanovich KOLESNIKOV was born in 1959. In 1954 he graduated from Gubkin Moscow Institute of petrochemical and gas industry (now Gubkin Russian State University of Oil and Gas). Ph. D. in chemistry, head of laboratory of kinetics and catalysis of the Dept. of physical and colloidal chemistry of Gubkin Russian State University of Oil and Gas, the author of more than 80 publications.
Vladimir Arnol’dovich VINOKUROV was born in 1950, Ph.D. of Chemistry, professor, Head of Physical and Colloidal Chemistry Chair, graduated Gubkin MINHGP (now Gubkin Russian State University of Oil and Gas) in 1972. RAEN academic, member of “Neftehimiya” journal editorial staff, member of expert advisory councils of Moscow government and Gosduma. Author of 250 publications. E-mail: vinok_ac@mail.ru

Abstract: Non-empirical quantum mechanical calculations were carried out. It is shown that the presence of benzene in low and in high boiling gasoline fractions takes place because of formation of intermolecular complexes of benzene with other aromatic hydrocarbons. The energy of the interaction of molecules in these complexes exceeds that of thermal movement, therefore such complexes are stable enough.

Index UDK: 544.147: 665.633.8

Keywords: gasoline, boiling temperatures of fractions, density, non-empirical quantum mecha-nical calculations, intermolecular complexes, benzene, aromatic hydrocarbons, energy of the interaction

Bibliography: