Thermodynamic Simulation of Joint Pyrometallurgical Processing of Oxidized Nickel Ores and Sulfide Copper Ores
Abstract
Full Text:
PDFReferences
Selivanov E.N., Klyushnikov A.M., Gulyaeva R.I. et al. Prospects for direct metallurgical processing of sulfide ores [Perspektivy pryamoy metallurgicheskoy pererabotki sul'fidnykh rud], Trudy "Perspektivy razvitiya metallurgii i mashinostroeniya s ispol'zovaniem zavershennykh fundamental'nykh issledovaniy i NIOKR" [Proc. "Prospects for the development of metallurgy and mechanical engineering with the use of completed basic research and R & D"], Ekaterinburg, 2015, pp. 309-312. (in Russ.)
Selivanov E.N., Resnick I.D., Sorokin A.A. et al. Prospects for the production of nickel from oxidized nickel ores of the Urals [Perspektivy proizvodstva nikelya iz okislennykh nikelevykh rud Urala], Trudy "Nauchnye osnovy i praktika razvedki i pererabotki rud i tekhnogennogo syr'ya" [Proc. "Scientific bases and practice of exploration and processing of ores and technogenic raw materials"], Ekaterinburg, AMB, 2003, pp. 177-184. (in Russ.)
Selivanov E.N., Tolknov D.A., Chumarev V.M. Prospects for smelting of oxide and sulphide ores on copper-nickel matte [Perspektivy plavki oksidnykh i sul'fidnykh rud na medno-nikelevyy shteyn], Tsvetnaya metallurgiya [Non-ferrous metallurgy], 2011, no. 11, pp. 41-43. (in Russ.)
Selivanov E.N., Klyushnikov A.M., Gulyaev R.I. Technical and economical assessment of direct metallurgical processing of sulfide ores [Tekhniko-ekonomicheskaya otsenka pryamoy metallurgicheskoy pererabotki sul'fidnykh rud], Tsvetnaya metallurgiya [Nonferrous metallurgy], 2015, no.3. pp. 15-21. (in Russ.)
Ageev N.G., Naboichenko S.S. Metallurgicheskie raschety s ispol'zovaniem paketa prikladnykh programm HSC Chemistry: uchebnoe posobie [Metallurgical calculations using the HSC Chemistry application package: study guide], Ekaterinburg, Ural University Publishing House, 2016, 124 p. (in Russ.)
Tyushnyakov S.N., Selivanov E.N. Thermodynamic simulation of phase formation during cooling of zinc-containing cooper-smelting slag [Termodinamicheskoe modelirovanie fazoobrazovaniya pri okhlazhdenii tsinksoderzhashchego medeplavil'nogo shlaka], Butlerovskie soobshcheniya [Butlerov Communications], 2015, vol. 43, no.9, pp. 102-107. (in Russ.)
Eriksson G., Hack K. ChemSage – a Computer Program for the Calculation of Complex Chemical Equilibria, Metallurgical Trans. B, 1990, vol. 21, pp. 1013-1023. DOI: 10.1007/BF02670272
Klyushnikov A.M., Selivanov E.N. Thermodynamic modeling of the joint processing of oxidized nickel ores and sulfide copper-bearing ores [Termodinamicheskoe modelirovanie sovmestnoy pererabotki okislennoy nikelevoy i sul'fidnoy mednoy rud], Butlerovskie soobshcheniya [Butlerov Communications], 2017, vol. 49, no.1, pp. 34-42. (in Russ.)
Vatolin N.A., Moiseev G.K., Trusov B.G. Termodinamicheskoe modelirovanie v vysokotemperaturnykh neorganicheskikh sistemakh [Thermodynamic modeling in high-temperature inorganic systems], Moscow, Metallurgy, 1994, 352 p. (in Russ.)
Udalov Yu.P. Primenenie programmnykh kompleksov vychislitel'noy i geometricheskoy termodinamiki v proektirovanii tekhnologicheskikh protsessov neorganicheskikh veshchestv: uchebnoe posobie [The use of software complexes of computational and geometric thermodynamics in the design of technological processes of inorganic substances: tutorial], Saint Petersburg, SPbSTI (TU), 2014, 147 p. (in Russ.)
Akinfiev N.N., Epifanova S.S. Issledovaniya v uchebnom praktikume po khimii (termodinamika) [Research in a training workshop in chemistry (thermodynamics)], Moscow, RGGRU, 2008, 29 p. (in Russ.)
Reznik I.D., Ermakov G.P., Schneerson Y.M. Nikel': v 3 t. T. 2 [Nickel], Moscow, Science and Technology, 2001, 468 p. (in Russ.)
Reznik I.D. Nikel': v 3 t. T. 3 [Nickel], Moscow, Science and Technology, 2003, 608 p. (in Russ.)
Reznik I.D. Nikel': v 3 t. T. 1 [Nickel], Moscow, Science and Technology, 1995, 440 p. (in Russ.)
Vanyukov A.V., Utkin N.I. Kompleksnaya pererabotka mednogo i nikelevogo syr'ya: uchebnik dlya vuzov [Complex processing of copper and nickel raw materials: a textbook for universities], Chelyabinsk, Metallurgy. Chelyabinsk Branch, 1988, 432 p. (in Russ.)
Newton R.C. Thermodynamics of Minerals and Melts, Heidelberg – Berlin, Springer–Verlag New York Inc., 1981. DOI: 10.1002/crat.2170180519
Wesolowski M. Thermal decomposition of talc: a review, Thermochimica Acta, 1984, vol. 78, iss. 1-3, pp. 395-421. DOI: 10.1016/0040-6031(84)87165-8
Khoroshavin A.G. Forsterit [Forsterit], Moscow, Heat Engineering, 2004, 368 p. (in Russ.)
Charpentier L., Masset P.J. Thermal Decomposition of Pyrite FeS2 under Reducing Conditions, Materials Science Forum, 2010, vols. 654-656, pp. 2398-2401. DOI: 10.4028/www.scientific.net/MSF.654-656.2398
Korotich V.I., Bratchikov S.G. Metallurgiya chernykh metallov [Metallurgy of ferrous metals], Moscow, Metallurgy, 1987, 240 p. (in Russ.)
DOI: http://dx.doi.org/10.24892/RIJIE/20180307
Refbacks
- There are currently no refbacks.
Copyright (c) 2019 A. M. Klyushnikov, E. N. Selivanov
© Russian Internet Journal of Industrial Engineering. ISSN 2310-0818
E-mail: indust.engineering.ru@gmail.com
Another version of the web site: http://indust-engineering.ru