Physicochemical aspects of petroleum coke formation (review)

详细信息    查看全文

• 作者：V. M. Kapustin ; V. F. Glagoleva
• 关键词：oil refining depth ; petroleum coke ; heavy residual feedstock ; asphaltenes ; supramolecular structures ; resistance to phase separation ; thermal conversion ; coke structure
• 刊名：Petroleum Chemistry
• 出版年：2016
• 出版时间：January 2016
• 年：2016
• 卷：56
• 期：1
• 页码：1-9
• 全文大小：617 KB
• 参考文献：1.M. I. Levinbuk and V. N. Kotov, Mir Nefteprod., No. 2, 4 (2015).
  2.Analysis of World Petroleum Coke Market in 2009–2013 and Prospects for 2018, BusinesStat report of Feb 18, 2014.
  3.G. G. Valyavin, V. P. Zaporin, and S. V. Sukhov, Mir Nefteprod., No. 6, 22 (2011).
  4.Special Report, Oil Gas, No. 10, 58 (2008).
  5.V. M. Kapustin, in Proceedings of the 14th Russia & CIS Bottom of the Barrel Technology Conference BBTC 2014 (2014).
  6.V. P. Fokin and N. A. Belyaev, Mir Nefteprod., No. 2, 10 (2011).
  7.Z. I. Syunyaev, R. Z. Safieva, and R. Z. Syunyaev, Petroleum Disperse Systems (Khimiya, Moscow, 1990) [in Russian].
  8.L. G. Unger and L. N. Andreeva, Fundamental Aspect of Petroleum Chemistry: Nature of Resins and Asphaltenes (Nauka, Novosibirsk, 1995) [in Russian].
  9.S. R. Sergienko, B. A. Taimova, and E. I. Talalaev, Macromolecular Nonhydrocarbon Petroleum Compounds (Nauka, Moscow, 1979) [in Russian].
  10.V. M. Kapustin and A. A. Gureev, Petroleum Refining Technology, Part 2: Destructive Processes (Khimiya, KolosS, Moscow, 2007) [in Russian].
  11.Yu. V. Pokonova, Chemistry of Macromolecular Petroleum Compounds (Izd. LGU, Leningrad, 1980) [in Russian].
  12.R. Z. Safieva, Physical Chemistry of Petroleum: Physicochemical Principles of Petroleum Refining Technology (Khimiya, Moscow, 1998) [in Russian].
  13.E. V. Smidovich, Oil and Gas Refining Technology: Cracking of Petroleum Feedstock and Processing of Hydrocarbon Gases (Al’yans, Moscow, 2011) [in Russian].
  14.J. D. Brooks and G. H. Taylor, Nature, No. 4985, 697 (1965).CrossRef
  15.M. Isao, K. Yozo, N. Yasuhiro, and O. Takashi, Ind. Eng. Chem. Prod. Res. Dev., No. 2, 198 (1986).
  16.R. Z. Magaril, Formation of Carbon by Thermal Conversion of Individual Hydrocarbons and Petroleum Products (Khimiya, Moscow, 1973) [in Russian].
  17.M. Kh. Levinter, Doctoral Dissertation in Engineering (Moscow, 1967) [in Russian].
  18.Yu. M. Ganeeva, T. N. Yusupova, and G. V. Romanov, Usp. Khim., No. 80 (2011).
  19.E. Rogel, Colloid Surf. A 104, 85 (1995).CrossRef
  20.O. P. Strausz, T. W. Mojelsky, and E. M. Lown, Fuel 71, 1355 (1992).CrossRef
  21.J.-M. Lehn, Supramolecular Chemistry: Concepts and Perspectives (Wiley–VCH, Weinheim, 1995).CrossRef
  22.R. Z. Syunyaev and V. V. Likhatsky, Energy Fuels 24, 2233 (2010).CrossRef
  23.J. O. Safieva, V. V. Likhatsky, V. V. Filatov, and R. Z. Syunyaev, Energy Fuels 24, 2266 (2010).CrossRef
  24.V. E. Domenici and G. M. Sieli, Khim. Tekhnol. Topl. Masel, No. 1, 39 (1998).
  25.F. V. Karpeko and A. A. Gureev, Bitumen Emulsions: Basics of Physicoochemical Technology of Production and Application (Interasfal’t, Moscow, 1998) [in Russian].
  26.D. Yu. Makhin and V. M. Kapustin, Prom. Servis, No. 4, 10 (2011).
  27.T. P. Klokova, Yu. A. Volodin, and O. F. Glagoleva, Khim. Tekhnol. Topl. Masel, No. 1, 32 (2006).
  28.N. A. Pivovarova, Doctoral Dissertation in Engineering (Moscow, 2005) [in Russian].
  29.A. L. Grigor’ev, A. V. Desyatov, and O. I. Korba, Mir Nefteprod., No. 8, 16 (2010).
  30.R. G. Galiev, A. I. Luganskii, and I. V. Moroz, Mir Nefteprod., No. 7, 16 (2008).
  31.E. R. Bibartseva, B. V. Gorbunova, and A. A. Gureev, Khim. Tekhnol. Topl. Masel, No. 6, 16 (1997).
  32.N. M. Likhterova, V. V. Lunin, and V. N. Torkhovskii, Khim. Tekhnol. Topl. Masel, No. 5 (1999).
  33.T. P. Klokova, O. F. Glagoleva, N. K. Matveeva, and Yu. A. Volodin, Khim. Tekhnol. Topl. Masel, No. 1, 20 (1997).
  34.L. P. Kazakova, Solid Petroleum Hydrocarbons (Khimiya, Moscow, 1986) [in Russian].
  35.O. F. Glagoleva, E. V. Smidovich, and E. F. Yanson, Khim. Tekhnol. Topl. Masel, No. 9, 27 (1978).
  36.T. G. Gyul’misaryan, E. G. Gorlov, and S. E. Gorlova, Nauka Tekhnol. Uglevodorod., No. 1, 13 (2000).
  37.O. F. Glagoleva, Neftepererab. Neftekhim., No. 1, 18 (2004).
  38.S. A. Sabanenkov, I. S. Rabinovich, and M. N. Seliverstov, Production, Properties, and Applications of Pyrolysis Petroleum Coke (TsNIINeftekhim, Moscow, 1989) [in Russian].
  39.S. G. Rogachev and A. A. Khaibullin, Effect of the Molecular Structure of Feedstock on the Characteristics of the Coking Process and Quality of Petroleum Coke: A Topical Review (TsNIITEneftekhim, Moscow, 1977) [in Russian].
  40. Fuels, Lubricants, and Service Fluids: Assortment and Applications, Ed. by V. M. Shkol’nikov (Tekhinform, Moscow, 1999) [in Russian].
  41. Fuel and Lubrication Materials: Encyclopedic Dictionary, Ed. by V. M. Shkol’nikov (Tekhinform, Moscow, 2007) [in Russian].
  42.Yu. L. Shishkin, O. F. Glagoleva, and R. S. Koval’chuk, Izv. Vyssh. Uchebn. Zaved., Neft’ Gaz, No. 2, 86 (2009).
  43.A. F. Krasyukov, Petroleum Coke (Khimiya, Moscow, 1966) [in Russian].
  44.Z. I. Syunyaev, Production, Upgrading, and Application of Petroleum Coke (Khimiya, Moscow, 1973) [in Russian].
  45.Yu. L. Shishkin, Khim. Tekhnol. Topl. Masel, No. 4, 48 (2006).
  46.Tekhnol. Nefti Gaza: Nauchn.-Tekhnol. Zh., No. 6, 58 (2010).
  47.O. F. Glagoleva and S. G. Rogachev, Neftepererab. Neftekhim., No. 4, 10 (2013).
  48.V. M. Kapustin, Petroleum Refining Technology, in 4 parts, part 1: Crude Oil Distillation (KolosS, Moscow, 2012) [in Russian].
  49.V. M. Kapustin and Z. I. Syunyaev, Dispersed State in Petroleum Refining Catalyst Systems (Khimiya, Moscow, 1992) [in Russian].
  50.Z. I. Syunyaev, Petroleum Carbon (Nauka, Moscow, 1979) [in Russian].
  51.R. A. Meyers, Handbook of Petroleum Refining Processes (McGraw-Hill Education, New York, 2004), 3rd Ed.
  
• 作者单位：V. M. Kapustin (1)
  V. F. Glagoleva (1)
  
  1. Gubkin State University of Oil and Gas, Moscow, Russia
  
• 刊物类别：Chemistry and Materials Science
• 刊物主题：Chemistry
  Industrial Chemistry and Chemical Engineering
  Russian Library of Science
  
• 出版者：MAIK Nauka/Interperiodica distributed exclusively by Springer Science+Business Media LLC.
• ISSN：1555-6239

文摘

The current status and development of petroleum residue upgrading via coking in Russia and over the world have been surveyed with an emphasis on the role of the process in salving the problem of increasing the refining depth. Theoretical concepts of thermal conversion of heavy petroleum feedstock and the structure of asphaltenes as principal coke-forming compounds have been discussed, the results of studies on the formation of coke as either a byproduct or (to a greater extent) the desired product have been considered, and models of the coke structure have been proposed. The characteristic features of the coking process for petroleum residues of various chemical compositions have been addressed, as well as means for controlling the feedstock thermal stability and the yield and quality of coke with the use of external factors. Keywords oil refining depth petroleum coke heavy residual feedstock asphaltenes supramolecular structures resistance to phase separation thermal conversion coke structure