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Flotacja bez użycia kolektora rudy ołowiu i cynku z pokładu Derekoy (Turcja)
Języki publikacji
Abstrakty
Przeprowadzono badania procesu flotacji bez użycia kolektora siarczkowej rudy ołowiu i cynku, stosując siarczek sodu. Badano wpływ stężenia siarczku sodu, czasu kondycjonowania oraz pH zawiesiny flotacyjnej na parametry wzbogacania cynku i ołowiu. Określono także wpływ czyszczenia koncentratu na proces wzbogacania. Otrzymane wyniki z flotacji bez użycia kolektora porównano z wynikami, jakie uzyskano stosując szereg znanych kolektorów.
Słowa kluczowe
Rocznik
Tom
Strony
197--208
Opis fizyczny
Bibliogr. 29 poz., rys., tab., wykr.
Twórcy
autor
- Municipality of Çankaya, Ankara, Turkey
autor
- Middle East Technical University, Ankara, Turkey
autor
- Middle East Technical University, Ankara, Turkey
Bibliografia
- BOYCE, J.R., VENTER, W.J. and ADAM, J., (1970). Beneficiation of particle at the Tsumeb Concentrator, World Symposium on Mining and Metallurgy of Lead and Zinc, Raush, D.O. and Mariacher, B.C. (Eds.), AIME, New York, N.Y., V.1, pp.542-570.
- BUCKLEY, A.N., HAMILTON I.C. and WOODS, R., (1985). Investigation of The Surface Oxidation of Sulphide Minerals by Linear Potential Sweep Voltammetry and X-Ray Photoelectron Spectroscopy, Flotation of Sulphide Minerals, Forssberg, K.S.E. (Ed.), Elsevier, Amsterdam, pp.41-60.
- CASES, J.M., MIELCZARSKI, J.A., de DONATO, P., MIELCZARSKI, E., KONGOLO, M., BARRJS, O., ALNOT, M. and EHRHARDT, J.J., (1997). Relationship between Surface Composition and Flotation Behaviour of Chalcopyrite Prepared under Different Conditions, Proceedings of the XX International Mineral Processing Congress, Aachen, 21-26 September, pp. 477-489.
- EL-SHALL, H.E., ELGILLANI, D.A. and ABDEL-KHALEK, N.A., (2000). Role of zinc sulfate in depression of lead-activated sphalerite, Int. J. Miner. Process., V.58, pp.67-75.
- FINKELSTEIN, N.P., ALLISON, S.A., LOVELL, V.M. and STEWARt, B.V., (1975). Natural and induced hydrophobicity of sulphide mineral system, Advances in Interfacial Phenomena os Particulate/Solution/Gas Systems: Application to Flotation Research, Somasundaran, P. and Grieves, R.G. (Eds.), Am. Ins. Chem. Eng., Symosium Series No. 150, V.71, pp.159-160.
- FUERSTENAU, M.C., (1975). Future Trends in Mineral Processing Research, Special Lecture at Mc Gill University, Montreal, Que.
- GARDNER, J.R. and WOODS, R., (1979. “An Electrochemical Investigation of the Natural Floatability of Chalcopyrite”, Int. J. Miner. Process., Vol. 6, pp. 1-16.
- GAUDIN, A.M., 1932. Flotation, 1st Edition, McGraw-Hill, New York, 552 p.
- GRANO, S.R., SOLLAART, M., SKINNER, W., PRESTIDGE, C.A. and RALSTON, J., (1997). Surface modifications in the chalcopyrite-sulphite ion system. I. Collectorless flotation, XPS and dissolution study, Int. J. Miner. Process., V.50, pp.1-26.
- HAYES and RALSTON, (1988). The Collectorless Flotation and Separation of Sulphide Minerals by Eh Control, Int. J. Miner. Process., Vol. 23, pp. 55-84.
- HERRERA-URBINA, R., SOTILLO, F.J. and FUERSTENAU, D.W., (1999). Effect of sodium sulphide additions on the pulp potential and amyl xanthate flotation of cerussite and galena, Int. J. Miner. Process., V.55, pp.157-170.
- HEYES, G.W. and TRAHAR, (1977). Natural Floatability of Chalcopyrite, Int. J. Miner. Process., Vol. 4, pp. 317-344
- HUKKI, R.T., PALOMAKI, A. and ORIVUORI, E., (1952). Electrophoretic investigation of the activation of sphalerite by copper sulphide in flotation, Suom. Kemistil., B 52, pp.42-49.
- LASKOWSKI, J.S., LUI, Q. and ZHAN, Y., (1997). Sphalerite activation: Flotation and electrokinetic studies, Minerals Eng., V.10, No.8, pp.787-802.
- LEPETIC, V.M., (1974). Flotation of Chalcopyrite without Collector after Dry, Autogenous Grinding, CIM Bulletin, pp.71-77.
- LUTTRELL, G.H. and YOON, R.-H., (1982). The collectorless flotation of sulphide ores, 111th AIME Annual Meeting, February 14-18, Dallas, Texas.
- LUTTRELL, G.H. and YOON, R.-H., (1983). ESCA and mass spectrometric studies of the collectorless flotation of chalcopyrite, 111th AIME Annual Meeting, March 6-10, Atlanta, Georgia.
- LUTTRELL, G.H. and YOON, R.-H., (1984). The collectorless flotation of chalcopyrite ores using sodium sulphide, Int. J. Miner. Process., Vol. 13, pp.271-283.
- MATABISHI, M.K., HANDFIELD-JONES, R. and AKDOĞAN, G., (2000). Effect of Electrochemical Environment on Collectorless Flotation of Some Sulphide Minerals, Mineral Processing on the Verge of the 21st Century, Proceedings of the 8th International Mineral Processing Symposium, Özbayoğlu, G., Hoşten, Ç., Atalay, M.Ü., HIÇYILMAZ, C. and AROL, A.İ. (Eds.), 16-18 October, Antalya/Turkey, pp. 211-214.
- MILLER, J.D., (1988). The significance of electrochemistry in the analysis of mineral processing phenomena, 7th Australian Electrochemistry Conference, Sydney, Australia.
- PLAKSIN, I.N., (1949). Inherent hydrophobicity of sulphide minerals under flotation conditions, Doklayd Akad. Nauk. SSSR, V.66, pp.91-93.
- RALSTON, J. and HEALY, T.W., (1980a). Activation of zinc sulphide with Cu(II), Cd(II) and Pb(II) I: Activation in weakly acid media, Int. J. Miner. Process. V.7, pp.175-201.
- RALSTON, J. and HEALY, T.W., (1980b). Activation of zinc sulphide with Cu(II), Cd(II) and Pb(II) I: Activation in neutral and alkaline media, Int. J. Miner. Process., V.7, pp.203-217.
- RAVITZ, S.F. and PORTER, R.R., (1933). Oxygen Free Flotation I: Flotation of Galena in Absence of Oxygen, AIME Technical Publication, No: 513, USA, 17 p.
- STEWART, B.V. and FINKELSTEIN, N.P., (1973). A preliminary investigation of the flotation of copper activated sphalerite without the use of collectors, National Institute of Metallurgy, Johannesburg. Report No. 1587.
- TRAHAR, W.J., SENIOR, G.D., HEYES, G.W. and CREED, M.D., (1997). The activation of sphalerite by lead: A flotation perspective, Int. J. Miner. Process., V.49, pp.121-148.
- WARK, I.W., (1938). Principles of Flotation, Australasian Institute of Mining and Metallurgy, Melbourne, 346 p.
- YOON, R.-H., (1981). Collectorless Flotation of Chalcopyrite and Sphalerite Ores Using Sodium Sulphide, Int. J. Miner. Process., Vol. 8, pp. 31-48.
- ZHANG, Q., XU, Z., BOZKURT, V. and FINCH, J.A., (1997). Pyrite Flotation in the Presence of Metal Ions and Sphalerite, Int. J. Miner. Process., V.52, pp.187-201.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BAT6-0001-0017