Predicting the yield of coke and its byproducts on the basis of elementary and petrographic analysis

Golovko, M.B., Miroshnichenko, D.V., and Kaftan, Yu.S., Predicting the yield of coke and its primary byproducts, Coke Chem., 2011, vol. 54, no. 9, pp. 331–338.

Gusak, V.G. and Drozdnik, I.D., Rank structure and technological properties of coal imported to Ukraine, Uglekhim. Zh., 2011, no. 1/2, pp. 3–11.

Mukina, N.V., Zhadan, S.P., Chernousova, E.P., et al., Predicting the yield of coking products on the basis of elementary analysis of the initial coal, Uglekhim. Zh., 2011, no. 3/4, pp. 12–19.

Gorelov, P.N. and Kotelenets, M.S., Coking products and composition of coke-oven gas as a function of the degree of coal oxidation, Koks Khim., 1985, no. 5, pp. 20–22.

Sklyar, M.G. and Tyutyunnikov, Yu.B., Khimiya tverdykh goryuchikh iskopaemykh: laboratornyi praktikum (Fossil-Fuel Chemistry: A Laboratory Practicum), Kiev, 1985.

Drozdnik, I.D., Miroshnichenko, D.V., Golovko, M.B., et al., Standardized methods of assessing coking batch, Uglekhim. Zh., 2011, no. 5/6, pp. 27–39.

Miroshnichenko, D.V., Drozdnik, I.D., Kaftan, Yu.S., et al., Kinetic oxidation characteristics of coal, Coke Chem., 2012, vol. 55, no. 3, pp. 87–96.

Miroshnichenko, D.V., Drozdnik, I.D., Kaftan, Yu.S., et al., Laboratory and trial industrial coking of coal batch with different contents of oxidized coal, Coke Chem., 2012, vol. 55, no. 5, pp. 155–164.

Desna, N.A., Influence of the degree of coal oxidation on coke quality, Kazantip EKO-2012 innovatsionnye puti resheniya aktual’nykh problem bazovykh otraslei, ekologii, energo- i resursosberezheniya. XX Yubileinaya mezhdunar. nauch.-prakt. konf. (4–8 iyunya 2012 g., g. Shchelkino, AR Krym) (EKO-2012: Twentieth International Conference on Innovative Approaches to Technology, Environmental Protection, and Energy and Resource Conservation, June 4–8, 2012, Shchelkino, Crimea), Kharkov, 2012, vol. 1, pp. 161–171.

Gusak, V.G., Drozdnik, I.D., Kaftan, Yu.S., et al., Comparison of the composition, structure, and properties of metamorphically equivalent Donets Basin coal and US coal, Coke Chem., 2012, vol. 55, no. 4, pp. 119–126.

Davidzon, A.R. and Drozdnik, I.D., Structural-chemical and technological characteristics of Donets Basin coal with different degrees of reduction, Coke Chem., 2007, vol. 50, no. 3, pp. 50–54.

Davidzon, A.R., Shchendrik, T.G., Pashchenko, L.V., and Simonova, V.V., Structural features of coal from Krasnoarmeiskaya-Zapadnaya No. 1 mine (Donets Basin) for potential use in coking, Sb. nauch. st. XI Mezhdunar. nauch.-tekhn. konf. Ekologiya i zdorov’e cheloveka (Proceedings of the Eleventh International Conference on Ecology and Human Health), Shchelkino, Crimea, 2003, vol. 1, pp. 104–110.

Shchendrik, T.G., Simonova, V.V., Pashchenko, L.V., and Davidzon, A.R., Structural features of coal samples from Krasnoarmeiskaya-Zapadnaya No. 1 mine with different plastometric characteristics, Nauch.-tekhn. konf. Protsessy i tekhnologii ispol’zovaniya otkhodov khimicheskogo proizvodstva: tezisy dokl. (Abstracts of the Proceedings of a Conference of Processing Technology for Chemical Wastes), Donetsk, 2005.

Gyul’maliev, A.M., Golovin, G.S., and Gagarin, S.G., Klassifikatsiya goryuchikh iskopaemykh po strukturnokhimicheskii pokazatelyam i osnovye puti ispol’zovaniya iskopaemykh uglei (Structural and Chemical Classification of Fossil Fuels and Their Basic Applications), Moscow: NTK Trek, 2007.

Van Krevelen, D.W. and Shuyer, J., Coal Science, Amsterdam: Elsevier, 1957.

Gyul’maliev, A.M., Golovin, G.S., and Gladun, T.G., Teoreticheskie osnovy khimii uglya (Theoretical Principles of Coal Chemistry), Moscow: Izd. MGTU, 2003.

Gagarin, S.G., Lesnokova, E.B., and Shulyakovskaya, L.V., Assessing the aromatic structure of lignites, Khim. Tverd. Topl., 1993, no. 1, pp. 3–11.

Veselovskii, V.S., Khimicheskaya priroda goryuchikh iskopaemykh (Chemical Nature of Fossil Fuels), Moscow: Izd. Akademii Nauk SSSR, 1955.

Ulanovskii, M.L., Analysis of the structural parameters of Donets and Lvov-Volynsk coal, Coke Chem., 2012, vol. 55, no. 2, pp. 37–42.

Gagarin, S.G., Regression analysis of the composition and properties of macerals in Kuznets Basin coal with different degrees of reduction, Koks Khim., 1998, no. 2, pp. 2–6.

Gagarin, S.G. and Ulanov, N.N., Composition and properties of coal macerals, Koks Khim., 1997, no. 4, pp. 7–13.

Kaftan, Yu.S., Drozdnik, I.D., Miroshnichenko, D.V., et al., Basic principles for the formulation of batch containing coal from different basins, Uglekhim. Zh., 2010, no. 3/4, pp. 25–31.

Eremin, I.V., Lebedev, V.V., and Tsikarev, D.A., Petrografiya i fizicheskie svoistva uglei (Petrography and Physical Properties of Coal), Moscow: Nedra, 1980.

Il’in, V.A. and Poznyak, E.G., Lineinaya algebra: uch. dlya vuzov (Linear Algebra: A University Textbook), Moscow: Fizmatlit, 2004, 6th ed.

Korn, G. and Korn, T., Mathematical Handbook for Scientists and Engineers, New York: Dover, 1968.

Kremer, N.Sh., Putko, B.A., Trishin, I.M., and Fridman, M.N., Vysshaya matematika dlya ekonomistov (Higher Mathematics for Economists), Moscow: YuNITI-DANA, 2007, 3rd ed.

Glushchenko, I.M. Petrograficheskaya kharakteristika i ee znachenie dlya otsenki svoistv uglei (Petrographic Characteristics and the Assessment of Coal Properties), Moscow: Nedra, 1971.

Analysis of the state of the furnaces and basic shops at Ukrainian coke plants (as of January 1, 2010), Scientific Report NIR-6277, Kharkov: Giprokoks, 2010.

Kovalev, E.T., Vasil’ev, Yu.S., Kuznichensko, V.M., et al., Theory and practice of high-quality blast-furnace coke production from rammed batch with limited clinkering properties, Uglekhim. Zh., 2009, no. 3/4, pp. 24–30.

Danilov, A.B., Kachtryan, R.A., Kovalev, E.T., and Bannikov, L.P., Reconstruction of the byproduct shop as a priority at OAO Alchevskkoks, Uglekhim. Zh., 2009, no. 3/4, pp. 64–68.

Kolomiichenko, A.I., Priorities in the development of Ukrainian coke production: Commemorating the eightieth anniversary of Makeevsk coke plant, Uglekhim. Zh., 2012, no. 5/6, pp. 5–10.

Kolomiichenko, A.I., Kovalev, E.T., and Starovoit, A.G., Trends in the development of coke production at ChAO Makeevkoks, Uglekhim. Zh., 2012, no. 5/6, pp. 11–17.

Goranskii, P.Yu., Bulanyi, S.M., Cherkasov, I.I., et al., Batch preparation in the production of high-quality coke at ChAO Makeevkoks, Uglekhim. Zh., 2012, no. 5/6, pp. 20–26.

Chub, V.E., Dzekunov, S.N., Mokritskikh, A.D., et al., Influence of various factors on the loss of rammed coal on charging in the coke furnaces, Uglekhim. Zh., 2002, no. 3/4, pp. 15–18.

Kuznichenko, V.M., Karpov, A.V., Lobov, A.A., et al., Coke production with rammed coal batch, Koks Khim., 1996, no. 8, pp. 18–20.

Komelenets, M.S., Novikov, V.N., Gorelov, P.N., and Noskova, L.V., Standardization of the laboratory determination of coke-plant yields, Koks Khim., 1977, no. 3, pp. 32–34.

GOST (State Standard) 18635-73: Coal: Method of determining the yield of coking products, 1973.

Danilov, A.B., Verdibozhenko, G.S., Drozdnik, I.D., et al., Practical use of petrographic data in predicting coke-plant yields, Coke Chem., 2012, vol. 55, no. 11, pp. 419–422.