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Received February 7, 2010
Accepted March 18, 2010
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Adsorption and column flotation studies on talc using anionic and cationic collectors
Department of Mining Engineering, Cumhuriyet University, 58140 Sivas, Turkey 1Department of Chemical Engineering, Cumhuriyet University, 58140 Sivas, Turkey
Korean Journal of Chemical Engineering, November 2010, 27(6), 1922-1927(6), 10.1007/s11814-010-0298-0
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Abstract
Adsorption properties and column flotation were studied to investigate the interaction of the anionic and cationic collectors and flotation recoveries for talc mineral. Adsorption capacity is dependent on pH, adsorption time, temperature, collector concentration, and particle size. Langmuir adsorption model was suitable for describing isotherms. Analyses were carried out using UV spectrometry. In this study, we analyzed some parameters affecting column flotation performance. It was determined that adsorption capacity, especially, had an important role in column flotation enrichment.
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References
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Georges F, Challenges for Talc Producers, Industrial Minerals, 61 (1999)
Gurkan V, Firat C, Turkiye Endustriyel Mineraller Envanter Ed., Y.M.G.V. (1999)
Goldsberg S, Sposito G, Soil Sci. Soc. Am. J., 48, 772 (1984)
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Roger J, In: Fuerstenau DW Ed., Froth Flotation 50th Anniversary Volume AIME, New York, 139 (1962)
McHardy J, Salman T, Trans. Inst. Min. Metall., 83, C25 (1974)
Liu G, Feng Q, Ou L, Lu Y, Zhang G, Min. Eng., 19, 147 (2005)
Beattie DA, Huynh L, Kaggwa GB, Ralston J, Int. J. Miner. Process., 78, 238 (2006)
Huang P, Fuerstenau DW, Colloids an Surfaces A: Physicochemical and Engineering Aspects, 177, 147 (2001)
Giles CH, MacEwan TH, Nakhwa SN, Smith D, J. Chem. Soc., 3973 (1960)
Finch JA, Dobby GS, in Column Flotation (Pergamon Press, Oxford, UK), USA, 180 (1990)
Foot DG, McKay JD, Huiatt JL, Canadian Metallurgical Quarterly, 25, 15 (1986)
Kho CJ, Sohn HJ, Int. J. Miner. Process., 157 (1989)
Sampaio CH, Aliaga W, Villanueva M, Min. Eng., 731 (2005)
Uribe Salas A, Perez-Garibay R, Nava-Alonso F, Min. Eng., 20, 710 (2007)
Reddy PSR, Kumar SG, Bhattacharyya KK, Sastri SRS, Narasimhan KS, Int. J. Miner. Process., 24, 161 (1988)
Mavros P, Lazaridis NK, Matis KA, paper presented at Proceedings of the II. Int. Min. Process. Symp., zmir/Turkey, 166 (1988)
Hall ST, Industrial Minerals Processing Supplement, 30 (1990)
Flint IM, Wyslouzil HE, de Lima Andrade VL, Murdock DJ, Min. Eng., 5, 1185 (1992)
Maksimov II, Borkin AD, Emelyanov MF, The use of column flotation machines for cleaning operations in concentrating non-ferrous ores, Paper presented at XVII, Int. Min. Process, Congress Dresden/FRG (1991)
Groppo JG, Parekh BK, Minerals & Metallurgical Processing, February, 9 (1990)
Guney A, Onal G, Celik MS, Miner. Eng., 12(9), 1041 (1999)
Gursu B, Hicyylmaz C, Bilgen S, Paper presented at the Proceedings of the XXI, Int. Min. Process. Congress, Rome/Italy, C8b-29 (2000)
Hadler K, Aktas Z, Cilliers JJ, Min. Eng., 18, 171 (2004)
Kursun H, Ulusoy U, Int. J. Miner. Process., 78, 262 (2006)
Chander S, Wie JM, Fuerstenau DW, AIChE Symposium Series, 71, 183 (1975)
Macdonalds RD, Brison RJ, Applied research in flotation, In: Fuerstenau DW (Ed.), Froth Flotation 50th Anniversary Volume AIME, New York 298 (1962)
Goodal CM, O’Connor CT, Int. J. Miner. Process., 36, 219 (1992)
Tuteja RK, Spottiswood DJ, Misra VN, Recent Progress in the Understanding of Column Flotation-A Review, The AusIMM Proceedings, No.2, 25 (1995)
Guney A, Gul A, Dogan MZ, Onal G, Upgrading of bulk concentrate of murgul flotation plant by column flotation, Paper presented at the Changing Scopes in Mineral Processing, Kemal M, Arslan V, Akar A, Canbazoglu M Eds., Balkema, 361 (1996)
