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Role of ore mineralogy in selecting beneficiation route for magnesite-dolomite separation

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Characterization and beneficiation of magnesite-dolomite sample were performed. The role of ore mineralogy in selecting the most adequate concentration method for magnesite-dolomite separation was found to be detrimental. The microscopic analysis showed that dolomite is stained with goethite and lepidocrocite (weakly magnetic minerals), while magnesite is stained with hematite and magnetite (highly magnetic mineral). A dry magnetic separation technique was used to separate dolomite from magnesite. The magnetic separation of the sample resulted in a magnesite concentrate product assaying 1.12% CaO with 46.02% recovery and CaO/SiO2 molar ratio = 1.62. This magnesite product is suitable for basic refractory. Besides, middling fraction was produced, containing 44.63% magnesite and 10.95% dolomite. This product is suitable for making low-loss forsterite dielectrics.
Słowa kluczowe
Rocznik
Strony
525--534
Opis fizyczny
Bibliogr. 18 poz., rys., tab.
Twórcy
autor
  • Central Metallurgical R&D Institute, P.O.Box 87, Helwan, Egypt
autor
  • Faculty of Science, Geological Department, Ain Shams University, Cairo, Egypt
Bibliografia
  • 1. ARAUJO A.C., AMARANTE S.C., SOUZA C.C., SILVO, R.R., 2003, Ore mineralogy and its relevance for selection of concentration methods in processing of Brazilian iron ores, Mineral Processing and Extractive Metallurgy, 112,1, 54–64(11).
  • 2. ARVIDSON B.R., 1995, New rare earth magnetic roll separator developments, Proc. of the XI. Min. Proc. Congress, Berlin, 98.
  • 3. BEITLER B. PARRY W.T., CHAN M.A., 2003, Bleaching of Jurassic Navajo Sandstone on Colorado Plateau Laramide Highs: Evidence of exhumed hydrocarbon supergiants? Geology, 31, 12, 1041–1044.
  • 4. CHAN M.A., PARRY W.T., BOWMAN J.R., 2000, Diagenetic hematite and manganese oxides and fault-related fluid flow in Jurassic sandstones, southeastern Utah. AAPG Bulletin, 84, 9, 1281–1310.
  • 5. CHEN G.L., DANIEL T., 2005, Reverse flotation of magnesite by dodecyl phosphate from dolomite in the presence of sodium silicate, Separation Science and Technology, 39, 2, 377–390.
  • 6. COHEN H.H., 1973, Proceedings of the high Gradient Magnetic Separation Symposium, MJT, Mass.
  • 7. GIRGIS L.G., GAD G., 1970, Refractory aspects of some dolomite magnesite rocks, J. of Applied Chemistry, 20, 8, 234–239.
  • 8. GONGLAN C., DANIEL T., 2004, Effect of solution chemistry on floatability of magnesite and dolomite, Int. J. of Mineral Processing, 74, 1–4, 343–357.
  • 9. GROSZ S., MATTHEWS A., IIANI S., AYALON A., GARFUNKL Z., 2006, Iron mineralization and dolomitization in the Paran Fault zone, Israel: implications for low-temperature basinal fluid processes near the Dead Sea Transform. Geofluids, 6, 137–153.
  • 10. KREMENETSKAYA I.P., KORYTNAYA O.P., VASIL’AVA T.N., BELYAEVSKII A.T., KADYROVA G.I., AZUKHINA S.I., 2009, Physicochemical simulation of calcite(dolomite)-FeSO4-H2O open systems, Russian Journal of Applied Chemistry, vol. 82, no. 10, 1845–1851.
  • 11. KUMAR V., JADHAV G.N., KHOSLA N.K., MEHROTRA S.P., 2010, Implication of process mineralogy for beneficiation of low grade iron ore resources containing high alumina from eastern part of India, Proceeding of the XI International Seminar on Mineral Processing Technology, I, 82–91.
  • 12. ORMO J., KOMATSU G., CHAN M.A., BEITLER B., PARRY W.T., 2004, Geological features indicative of processes related to the hematite formation in Meridiani Planum and Aram Chaos, Mars: a comparison with diagenetic hematite deposits in southern Utah, USA, Icarus, 171, 295–316.
  • 13. OTHMAN A.G.M., KHALIL N.M., 2005, Sintering of magnesia refractories through the formation of periclase-forsterite-spinel phases, Ceramics Int., 31, 8, 117–1121.
  • 14. PARRY W.T., CHAN M.A., BEITLER B., 2004, Chemical bleaching indicates episodes of fluid flow in deformation bands in sandstone. AAPG Bulletin 88, 2, 175–191.
  • 15. SCHUBERT H. 1978, Aufbereitung Fester Minerischer Rohstoffe, VEB Deutscher Verlag für Grundstoffe, 2, Auflage.
  • 16. UPADHYAY R.K., ROY S., VENKATESH A.S., RAO M.V.S., BANERJEE P.K, 2009, Relevance of geological aspects and ore mineralogy in selecting beneficiation methods for processing of eastern Indian iron ores, Mineral Processing and Extractive Metallurgy, 118,1, 49–59.
  • 17. WANZHONG Y., QIANG L., YINGQIANG M.A., 2011, Flotation research on dolomite-containing magnesite ore, Advanced Materials Research, 158, 113–124.
  • 18. YEHIA A,, Al-WAKEEL M.I. 2000, Talc separation from talc-carbonate ore to be suitable for different industrial applications, Technical note, Minerals Engineering, v. 13, no. 1, 111–116.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-1688a9e5-4c24-4176-8e1e-06c6b13f20df
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