Abstract
The thermal behavior of
chalcopyrite ore concentrate was used thermogravimetric analysis (TG) coupled
by differential thermal analysis (DTA). The thermal analysis were done up to
900oC from 0oC at different heating rates (2, 5, 10, 15
and 20 oC /min) under air atmosphere. The ore was calcined at 30,
60, 90 min and 350, 400, 450, 600, and 800oC and investigated
sulphation proportions. The products of obtained calcination were characterized
by XRD, SEM/EDS, FTIR analysis. Based on the conclusions obtained was confirmed
the thermal behavior of the ore.
References
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- Sargsyan, L.E., Hovhannisyan, A. M. 2010b, “Investigation of chalcopyrite cuprum concentrate coasting by thermogravimetric and differential-thermal analysis”, Metallurgical and Minning Industry, vol.2, no. 3, 225-229.
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- Zhao Y., Hou Y., Cui Y., Liang H., Li L. 2015,” Recovery of Copper from Copper Sulfide Concentrate by Sulfation Roasting”. International Journal of Nonferrous Metallurgy, vol. 4, 9-13.
Abstract
References
- Copur, M., Kızılca, M., Kocakerim, M.M. 2015, “Determination of the optimum conditions for copper leaching from chalcopyrite concentrate ore using taguchi method”. Chemical Engineering Communications, vol. 202, no 7, 927-935.
- Gulfen, M., Aydın, A.O. 2010, “Dissolution of copper from a primary chalcopyrite ore calcined with and without Fe2O3 in sulphuric acid solution”, Indian Journal of Chemical Technology, vol. 17, 145-149.
- Mikhlin, Y.L., Y.V. Tomashevich, Asanov, I. P., Okotrub, A.V., Varnek, V.A., Vyalikh, D.V. (2004). Spectroscopic and electrochemical characterization of the surface layers of chalcopyrite (CuFeS2) reacted in acidic solutions. Applied Surface Science, vol. 225,395–409.
- Jain, R.C., Madhavan, S., Acharjee, D.K., Gupta Sen P. 1982,” Optimum performance data for the leaching of roasted chalcopyrite concentrate in a jet contactor”, The Canadian Journal of Chemical Engineering, vol. 60, 516-521.
- Parasad, S., Pandey, B.D., 1998,” Alternative processes for treatment of chalcopyrite -a review”. Mineral Engineering, vol 11, no.8, 763781.
- Parasad,S., Pandey,B.D., 1999. Thermoanalytical studies on copper-iron sulphides. Journal of Thermal Analysis and Calorimetry, vol. 58, 625-637.
- Sargsyan, L.E., Hovhannisyan, A. M. 2010a, “Actived sulfating roasting of the chalcopyrite concentrate for sulfuric-acid leaching”, Russian Journal of Non-Ferrous Metals, vol. 51, 386-388.
- Sargsyan, L.E., Hovhannisyan, A. M. 2010b, “Investigation of chalcopyrite cuprum concentrate coasting by thermogravimetric and differential-thermal analysis”, Metallurgical and Minning Industry, vol.2, no. 3, 225-229.
- Sokić,M., Ilić, I., Źivković, D., Vućkovik N. 2008, “Investigation of mechanism and kinetics of chalcopyrite concentrate oxidation process”. Metalurgija, vol. 47, 109-113.
- Zhao Y., Hou Y., Cui Y., Liang H., Li L. 2015,” Recovery of Copper from Copper Sulfide Concentrate by Sulfation Roasting”. International Journal of Nonferrous Metallurgy, vol. 4, 9-13.
Details
| Journal Section | Articles |
|---|---|
| Authors | |
| Publication Date | June 30, 2017 |
| Published in Issue | Year 2017 Volume: 5 Issue: 1 |
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