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A. Gordienko, A. Davidzon, V. Chalenko (2007)
Influence of the metamorphic state of coal batch on the coke quality (CRI, CSR)Coke and Chemistry, 50
J.T. Price, M.J. Iliffe, M.A. Khan, J.P. Gransden (1994)
Minerals in Coal and High-Temperature Properties of CokeProc. Ironmaking Conf., 53
M. Ulanovskii (2009)
Parameters for optimization of coke quality (CRI and CSR)Coke and Chemistry, 52
A. Stankevich, R. Gilyazetdinov, N. Popova, D. Koshkarov (2008)
Predicting CSR and CRI of coke on the basis of the chemical and petrographic parameters of the coal batch and the coking conditionsCoke and Chemistry, 51
A. Ghosh, A. Chatterjee (2008)
Ironmaking and Steelmaking: Theory and Practice
N. Shapiro, R.J. Gray (1964)
The Use of Coal Petrography in Coke MakingJ. Inst. Fuel, 37
N. Berkutov, Y. Stepanov, R. Gilyazetdinov, N. Popova, S. Kupriyanova (2010)
Optimizing the composition of coking batchCoke and Chemistry, 53
M. Ulanovskii (2009)
Predicting coke quality on the basis of CSR and CRI: A reviewCoke and Chemistry, 52
É. Bulanov, V. Krutenkov, A. Shilyakov (2009)
Predicting the postreactive strength (CSR) and reactivity (CRI) of dry-slaked metallurgical coke on the basis of Audibert-Arnu dilatometryCoke and Chemistry, 52
M. Ulanovskii, D. Miroshnichenko (2007)
Influence of the mineral components of coal on coke quality (CRI and CRS)Coke and Chemistry, 50
Keiichiro Koba, S. Ida (1980)
Gasification reactivities of metallurgical cokes with carbon dioxide, steam and their mixturesFuel, 59
I.I. Amosov, I.V. Eremin, N.I. Babinkova (1963)
Petrograficheskie osobennosti i svoistva uglei
M. Steller, P. Arendt, H. Kühl (2006)
Development of coal petrography applied in technical processes at the Bergbau-Forschung/DMT during the last 50 yearsInternational Journal of Coal Geology, 67
M.I. Shchadov, V.B. Artem’ev, V.M. Shchadov (2000)
Prirodnyi potentsial iskopaemykh uglei. Ratsional’noe ispol’zovanie ikh organicheskogo veshchestva
R. Toshimitsu, M. Hattori, H. Ishiguro (1994)
Development of Control Method of Coke Strength after CO2 ReactionProc. Ironmaking Conf., 53
V. Mizin, L. Zinov'eva, S. Klyukin (2009)
Assessing the metallurgical coke produced at OAO NLMKCoke and Chemistry, 52
D. Miroshnichenko (2008)
Preliminary estimation of coke’s CRI and CSR values on the basis of the physical properties of coal ashCoke and Chemistry, 51
I.V. Eremin, T.M. Bronovets (1994)
Marochnyi sostav uglei i ikh ratsional’noe ispol’zovanie
R.J. Gray, P.E. Champagne (1988)
Petrographic Characteristics Impacting the Coal to Coke TransformationProc. Ironmaking Conf., 47
D. Vogt, J. Weber, J. Rouzaud, M. Schneider (1988)
Coke properties and their microstructure Part II: Coke carboxyreactivity: Relations to their textureFuel Processing Technology, 20
The strength CSR of metallurgical coke after high-temperature reaction with CO2 is determined by the depth of reaction and depends on the petrographic composition of the initial coal, the degree of metamorphic development, and the content of catalytically active ash components. Qualitative aspects of coke’s hot strength are reflected in the mathematical model, whose parameters include the vitrinite content Vt in the batch, the inertinite content I, the reflective index R o,r of vitrinite, and the basicity index of the ash.
Coke and Chemistry – Springer Journals
Published: Apr 6, 2011
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