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In order to increase the quality of feldspar ore and to obtain sellable feldspar concentrate, it is necessary to remove coloring impurities such as iron and titanium contained in it. For the removal of coloring minerals from feldspar ore the most widely used method is reverse flotation method. Reverse flotation process is generally carried out in conventional mechanical cells. In this study, it was aimed to enrich low-grade feldspar by using cyclojet flotation cell which was developed as an alternative to conventional cell. Then, experiments were performed by using conventional cell and wet magnetic separator and the results were compared with the flotation results obtained by using cyclojet cell. In experimental studies, 200 micrometer grain sized feldspar (albite) ore obtained from Muđla province at the west side of Turkey was used. It was detected that the sample was containing 0.100% Fe2O3 and 0.360% TiO2 as coloring minerals. Cyclojet cell, conventional cell and magnetic separator reduced the Fe2O3 content down to 0.010%, but TiO2 content was different in the concentrates obtained by different devices. There was almost no reduction in TiO2 content by magnetic separation method. Cyclojet cell reduced TiO2 content down to 0.030% and mechanical cell reduced TiO2 content down to 0.020%. The weights of the concentrate were detected as the highest (92.70%) in magnetic separator and as the lowest (75.40%) in cyclojet cell. Therefore, it is possible to say that cyclojet cell can compete with mechanical cell and removal of TiO2 in cyclojet cell is much better than the removal of TiO2 in magnetic separator. Generally, in the flotation process performed by using a reagent of Aero801 and Aero825 mixture in natural pH medium, both Fe2O3 and TiO2 can be removed at a rate of up to 90%, but magnetic separator can only remove Fe2O3 mineral.
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Tom
Strony
381--392
Opis fizyczny
Bibliogr. 13 poz, fig., tab.
Twórcy
autor
autor
autor
- Istanbul University, Engineering Faculty, Mining Engineering Department, Avc?lar, Istanbul, ilginkur@istanbul.edu.tr
Bibliografia
- 1. ANONYMOUS, 2010, Feldspar Report, TMMOB Chamber of Mining Engineers. No.169; ISBN:978-99444-89-905-5.
- 2. BAYRAKTAR, I., ERSAYIN, S., GÜLSOY, O.Y., 1998, Magnetic separation and flotation of albite, Innovations in Mineral Processing, Atak, Önal & Çelik (eds), Balkema, Rotterdam, ISBN:90-5809-013-2.
- 3. BAYRAKTAR, L., ERSAYIN, S., GÜLSOY, Ö.Y., 1997, Upgrading titanium bearing Na-feldspar by flotation using sulphonates, succinamate and soaps of vegetable oils, Miner. Eng. 12(1), 1363-1374.
- 4. COWBURN, J., HARBORT, G., MANLAPIG, E., POKRAJCIC, Z., 2006, Improving the recovery of coarse coal particles in a Jameson cell, Miner. Eng., 19 (6-8), 609-618.
- 5. ÇINAR, F., ŞAHBAZ, O., ÇINAR, M., ÖTEKAYA, B.,KELEBEK, Ş., 2007, A parametric study on Jameson cell flotation of quartz, XII Balkan Mineral Processing Congress, 10-14 June, Delphi, Greece, 251-256.
- 6. DOĞU, I., AROL, A.I., 2004, Separation of dark-colored minerals from feldspar by selective flocculation using starch, Powder Technol. 139, 258-263.
- 7. El-REHIEM, F.H., ABD EL-RAHMAN, M. K., 2008, Removal of coloring materials from Egyptian albite ore, Trans. Inst. Min. Metall., Sect. C. 117(3), 171-174.
- 8. GÜNEY, A., ÖNAL, G., ERGUT, Ö., 2002, Benefication of fine coal by using the free jet flotation system, Fuel Process. Technol. 15, 141-150.
- 9. HACIFAZLIOGLU, H., 2009, Development of a new flotation machine (cyclojet cell) for flotation of fine coals, Ph.D.Thesis, Karaelmas University, Zonguldak, Turkey.
- 10. HACIFAZLIOGLU, H., TOROĞLU, I., 2008, Flotation of Bituminous Coal Slimes in the Cyclojet Cell and a Comparison of Cyclojet Cell and Jameson Cell in Terms of Their Flotation Performance, Min. J. 47(1), 3–12.
- 11. KARAGÜZEL, C., ÇOBANOĞLU, G., 2010, Stage-wise flotation for the removal of colored minerals from feldispathic slimes using laboratory scale Jameson cell, Sep. Purif. Technol. 74, 100–107.
- 12. KANGAL, O., GUNEY, A., 2002, Beneficiation of low-grade feldispars using free jet flotation, Miner. Process. Extr. Metall. Rev. 23(3-4), 129‒140.
- 13. STYRIAKOVAA, I., STYRIAK,I., MALACHOVSKY, P., LOVASA, M., 2006, Biological, chemical and electromagnetic treatment of three types of feldspar raw materials, Miner. Eng. 19(4), 348–354.
Typ dokumentu
Bibliografia
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bwmeta1.element.baztech-article-BAT1-0043-0078