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Flotation behavior of nickel sulfide ore in a cyclonic flotation column

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Treść / Zawartość
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
This study aimed to show the flotation behavior of a nickel sulfide ore in a cyclonic flotation column. The flotation experiments were carried out using a sample of nickel sulfide ore obtained from a mineral processing plant of China. Representative samples collected from the feed, concentrate, tailing, and circulation middling were sieved using a cyclonic particle analyzer to collect different size fractions for analysis. The function of the column cyclonic zone of was evaluated by comparing the quality of tailing and circulation middling. The flotation results showed that the concentrate with Ni grade of 1.78% and recovery of 65.56% was obtained under given test conditions. The content of main sulfide minerals and coarse particles in the circulation middling was higher than that in the tailing. The results indicated that, unlike conventional cyclone classification, separation achieved in the cyclonic zone of the column was not dependent on the particle size and density. Sulfide minerals with good floatability were easily captured by bubbles and moved toward the center of the column, even if these particles were coarser and heavier.
Rocznik
Strony
770--780
Opis fizyczny
Bibliogr. 20 poz., rys., tab.
Twórcy
autor
  • School of Chemical Engineering and Technology, China University of Mining and Technology, Xuzhou 221116, China
autor
  • School of Chemical Engineering and Technology, China University of Mining and Technology, Xuzhou 221116, China
autor
  • National Engineering Research Center of Coal Preparation & Purification, Xuzhou 221116, China
autor
  • National Engineering Research Center of Coal Preparation & Purification, Xuzhou 221116, China
Bibliografia
  • CAO Y. J., LI G. S., LIU J. T., ZHANG H. J., ZHAI X., 2012. Removal of unburned carbon from fly ash using a cyclonic-static microbubble flotation. The Journal of The Southern African Institute of Mining and Metallurgy, 112, 891-896.
  • DAS A., MILLER J. D., 1996. Swirl flow characteristics and froth phase features in air-sparged hydrocyclone flotation as revealed by X-ray CT analysis. International Journal of Mineral Processing, 47(3),251-274.
  • DEGNER V. R., PERSON P. L., 1991. Leeds column performance evaluation. Minerals Engineering, 4(7), 935-950.
  • DEY S., PAUL G. M., PANI S., 2013. Flotation behaviour of weathered coal in mechanical and column flotation cell. Powder Technology, 246,689-694.
  • GU L. P., YALCIN T., 2012. Semi-batch flotation column. Minerals Engineering, 26: 105-107.
  • GUI X. H,LIU J. T.,CAOY. J., CHENG G., ZHANG H. J., WANG Y. T., 2013. Process intensification of fine coal separation using two-stage flotation column. Journal of Central South University, 20(12), 3648-3659.
  • GUI X., WANG Y., ZHANG H., LI S., 2014. Effect of two-stage stirred pulp-mixing on coal flotation. Physicochemical Problems of Mineral Processing, 50(1), 299-310.
  • JAMESON G. J., 2010. New directions in flotation machine design. Minerals Engineering, 23(11-13), 835-841.
  • LI G. S., CAO Y. J.,LIU J. T., WANG D. P., 2012. Cyclonic flotation column of siliceous phosphate ore. International Journal of Mineral Processing, 110, 6-11.
  • LI G. S., DENG L. J., LIU J. T., CAO Y. J., ZHANG H. J., RAN J.C., 2015. A new technique for removing unburned carbon from coal fly ash at an industrial scale. International Journal of Coal Preparation and Utilization, 35(5), 273-279.
  • LIU A. R., GAO J. C., FAN M. Q., 2013. Performance of an air-injected water-only cyclone for the separation of fine coal. International Journal of Coal Preparation and Utilization, 33(5), 218-224.
  • MILLER J. D., 1981. An air-sparged hydrocyclone apparatus and method. US, 4279743[P].
  • NIEWIADOMSKI M., HUPKA J., BOKOTKO R.,MILLER J. D., 1999. Recovery of coke fines from fly ash by air sparged hydrocyclone flotation. Fuel, 78 (2), 161-168.
  • VAN DEVENTER J. S. J., BURGER A. J., CLOETE F. L. D., 1988. Intensification of flotation with an air-sparged hydrocyclone. Journal of the South African Institute of Mining and Metallurgy, 88(10),325-332.
  • YALAMANCHILI M. R., MILLER J. D., 1995. Removal of insoluble slimes from potash ore by air-sparged hydrocyclone flotation. Minerals engineering, 8(1),169-177.
  • YALCIN T., 1995. The effect of some design and operating parameters in the cyclo-column cell. Minerals Engineering,8(3), 311-319.
  • YANG D. C., BOZZATO P., FERRARA G.,2003. Iron ore beneficiation with packed column jig. Journal of Minerals and Materials Characterization and Engineering, 2(1), 43-51.
  • YOON R. H., LUTTRELL G. H., ADEL G. T.,Mankosa M.J.,1992. Theapplication of Microcel column flotation to fine coal cleaning. Coal Preparation, 10(1-4),177-188.
  • ZHANG H. J., LIU J. T., WANG Y. T.,CAO Y. J., MA Z. L., LI X. B., 2013. Cyclonic-static micro-bubble flotation column. Minerals Engineering, 45, 1-3.
  • ZHOU X. H., LIU J. T., 2007. Particle residence time in column flotation based on cyclonic separation. Journal of China University of Mining and Technology, 17(3), 349-353.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-6400a920-0eea-419b-9001-d0b4f1abdea1
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