Access the full text.
Sign up today, get DeepDyve free for 14 days.
Loading next page...
/lp/springer-journals/production-of-isotropic-coke-from-shale-composition-of-oxidation-eaCcqqgdJw
References (32)
-
Денис Кузнецов, Фгбоу университет, Александр Абатуров, Илья Москалев, Дмитрий Кисельков, Интститут Ран (2018)
An investigation of structural-group composition features of shale tar atmospheric residue – a feedstock of high-grade isotropic coke production -
J. Fernández, A. Figueiras, M. Granda, J. Bermejo, J. Parra, R. Menéndez (1995)
Modification of coal-tar pitch by air-blowing II. Influence on coke structure and propertiesCarbon, 33
-
M. Guillén, Cristina Díaz, C. Blanco (1998)
Characterization of coal tar pitches with different softening points by 1H NMR: Role of the different kinds of protons in the thermal processFuel Processing Technology, 58
-
I. Mochida, Y. Fei, Y. Korai (1990)
A study of the carbonization of ethylene tar pitch and needle coke formationFuel, 69
-
B. Smirnov, L. Tyan, A. Fialkov, T. Galkina, G. Galeev (1976)
Modern Ideas about the Mechanism of the Formation of the Structure of Graphitising CokeRussian Chemical Reviews, 45
-
S. Zeng, T. Maeda, K. Tokumitsu, J. Mondori, I. Mochida (1993)
Preparation of isotropic pitch precursors for general purpose carbon fibers (GPCF) by air blowing—II. Air blowing of coal tar, hydrogenated coal tar, and petroleum pitchesCarbon, 31
-
(2012)
IK-spektry osnovnykh klassov organicheskikh soedinenii (IR Spectra of General Classes of Organic Compounds) -
V. Prada, M. Granda, J. Bermejo, R. Menéndez (1999)
Preparation of novel pitches by tar air-blowingCarbon, 37
-
I. Mochida, T. Oyama, Y. Korai (1988)
Improvements to needle-coke quality by pressure reductions from a tube reactorCarbon, 26
-
I. Mochida, Y. Fei, Y. Korai, T. Oishi (1990)
Co-carbonization of ethylene tar pitch and coal tar pitch to form needle cokeFuel, 69
-
A. Borrego, C. Blanco, J. Prado, Cristina Díaz, M. Guillén (1996)
1H NMR and FTIR Spectroscopic Studies of Bitumen and Shale Oil from Selected Spanish Oil ShalesEnergy & Fuels, 10
-
(2018)
Specific structural-group composition of the residue of atmospheric distillation of shale oils as a raw material for the production of highquality isotropic coke, Vestn -
J. Fernández, A. Figueiras, M. Granda, J. Bermejo, R. Menéndez (1995)
Modification of coal-tar pitch by air-blowing. I: Variation of pitch composition and propertiesCarbon, 33
-
C. Russo, F. Stanzione, A. Tregrossi, A. Ciajolo (2014)
Infrared spectroscopy of some carbon-based materials relevant in combustion: Qualitative and quantitative analysis of hydrogenCarbon, 74
-
I. Mochida, T. Oyama, Y. Korai, Y. Fei (1988)
Study of carbonization using a tube bomb: evaluation of lump needle coke, carbonization mechanism and optimizationFuel, 67
-
Y. Nesumi, Y. Todo, T. Oyama, I. Mochida, Y. Korai (1989)
Carbonization in the tube bomb leading to needle coke: II. Mechanism of cocarbonization of a petroleum vacuum residue and a FCC-decant oilCarbon, 27
-
I. Mochida, Y. Fei, Y. Korai, Fujimoto Kenichi, R. Yamashita (1989)
Carbonization in the tube bomb leading to needle coke: III. Carbonization properties of several coal-tar pitchesCarbon, 27
-
(2004)
Modern concepts on the thermooxidation of coal tar pitch. Part 3. The influence of oxidation conditions on the character of thermochemical transformations and the structure of pitch -
(1978)
Chemical changes during the mild air oxidation of pitch, Carbon -
A. Abaturov, I. Moskalev, D. Kisel’kov, V. Strelnikov (2018)
Production of Isotropic Coke from Shale: Microstructure of Coke from the Thermally Oxidized Distillation Residue of Shale TarCoke and Chemistry, 61
-
(2004)
New high - strength carbon materials for traditional technologies -
D. Netzel, F. Miknis (1982)
N.m.r. study of US Eastern and Western shale oils produced by pyrolysis and hydropyrolysisFuel, 61
-
J. Barr, I. Lewis (1978)
Chemical changes during the mild air oxidation of pitchCarbon, 16
-
J. White, R. Price (1974)
The formation of mesophase microstructures during the pyrolysis of selected coker feedstocksCarbon, 12
-
N. Zelenin, E. Nikitin, V. Fainberg (1976)
Baltic shale tars as raw materials for the production of multifunctional additives for fuels and oilsChemistry and Technology of Fuels and Oils, 12
-
S. Eser, R. Jenkins, F. Derbyshire, M. Malladi (1986)
Carbonization of coker feedstocks and their fractionsCarbon, 24
-
C. Díaz, C. Blanco (2003)
NMR: A Powerful Tool in the Characterization of Coal Tar PitchEnergy & Fuels, 17
-
(2004)
New high-strength carbon materials for traditional technologies, Ross -
I. Mochida, Y. Korai, T. Oyama, Y. Nesumi, Y. Todo (1989)
Carbonization in the tube bomb leading to needle coke. I: Cocarbonization of a petroleum vacuum residue and a FCC-decant oil into better needle cokeCarbon, 27
-
J. Poveda, D. Molina (2012)
Average molecular parameters of heavy crude oils and their fractions using NMR spectroscopyJournal of Petroleum Science and Engineering, 84
-
J. White (1976)
Mesophase Mechanisms in the Formation of the Microstructure of Petroleum Coke -
I. Mochida, T. Oyama, Y. Fei, T. Furuno, Y. Korai (1988)
Optimization of carbonization conditions for needle coke production from a low-sulphur petroleum vacuum residueJournal of Materials Science, 23
- Publisher
- Springer Journals
- Copyright
- Copyright © 2019 by Allerton Press, Inc.
- Subject
- Chemistry; Industrial Chemistry/Chemical Engineering
- ISSN
- 1068-364X
- eISSN
- 1934-8398
- DOI
- 10.3103/S1068364X18120025
- Publisher site
- See Article on Publisher Site
Abstract
ISSN 1068-364X, Coke and Chemistry, 2018, Vol. 61, No. 12, pp. 489–498. © Allerton Press, Inc., 2018. Original Russian Text © A.L. Abaturov, I.V. Moskalev, D.M. Kiselkov, V.N. Strelnikov, 2018, published in Koks i Khimiya, 2018, No. 12, pp. 32–41. CHEMISTRY Production of Isotropic Coke from Shale: Composition of Oxidation Products from Shale-Tar Distillation Residues a, a, a, a, A. L. Abaturov *, I. V. Moskalev **, D. M. Kiselkov ***, and V. N. Strelnikov **** Institute of Engineering Chemistry, Perm Federal Research Center, Ural Branch, Russian Academy of Sciences, Perm, Russia *e-mail: sasha6592@mail.ru **e-mail: moskaleviv@yandex.ru ***e-mail: dkiselkov@yandex.ru ****e-mail: strelnikov@itch.perm.ru Received September 22, 2018; revised September 22, 2018; accepted November 20, 2018 Abstract—The inf luence of thermal oxidation on the mesogenic properties of the atmospheric-distillation residue of shale tar was considered in a previous article [1]. It was found that thermal oxidation depresses the mesogenic properties of the (α + β) fraction but boosts the mesogenic properties of the γ fraction. In the pres- ent work, attention focuses on the change in structural and group (fractional) composition of the atmo- spheric-distillation residue and its individual components in the course of thermal oxidation, in terms of the impact on the
Journal
Coke and Chemistry – Springer Journals
Published: May 8, 2019