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Journal of Dispersion Science and Technology Volume 40, 2019 - Issue 8
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Original Articles

Selective flotation of calcium minerals using double-headed collectors

Anuttam PatraChemistry of Interfaces Group, Luleå University of Technology, Luleå, Sweden; Correspondence[email protected]
ORCID Iconhttp://orcid.org/0000-0001-9153-6262
ORCID Icon,
Hasan Ali TanerChemistry of Interfaces Group, Luleå University of Technology, Luleå, Sweden; ;Department of Mining Engineering, Selcuk University, Konya, Turkey; ORCID Iconhttp://orcid.org/0000-0003-2443-077X
ORCID Icon,
Romain BordesDepartment of Chemistry and Chemical Engineering, Chalmers University of Technology, Göteborg, SwedenORCID Iconhttp://orcid.org/0000-0002-0785-2017
ORCID Icon,
Krister HolmbergDepartment of Chemistry and Chemical Engineering, Chalmers University of Technology, Göteborg, Sweden
&
Anna-Carin LarssonChemistry of Interfaces Group, Luleå University of Technology, Luleå, Sweden;
Pages 1205-1216 | Received 11 Jun 2018, Accepted 15 Jul 2018, Published online: 10 Oct 2018

References

  • Fuerstenau, D.-F. Where We are in Flotation Chemistry After 70 Years of Research. Section Title: Extractive Metallurgy. Proceedings of Int. Miner. Proc. Conf. XIX, 1995.
  • Pearse, M.-J. An Overview of the Use of Chemical Reagents in Mineral Processing. Miner. Eng. 2005, 18, 139–149.
  • Pradip. Reagents Design and Development for the Mineral Processing Industry: Scientific Challenges and Engineering Issues. Met. Mater. Proc. 1998, 10, 41–54.
  • Butcher, A. A Practical Guide to Some Aspects of Mineralogy That Affect Flotation. Australas. Inst. Min. Metall. Spectrum Ser. 2010, 16, 83–93.
  • Karsa, D.-R. Design and Selection of Performance Surfactants, Sheffield Academic, CRC Press: Sheffield, Boca Raton, 1999.
  • Pugh, R.; Stenius, P. Solution Chemistry Studies and Flotation Behaviour of Apatite, Calcite and Fluorite Minerals with Sodium Oleate Collector. Int. J. Miner. Proc. 1985, 15, 193–218.
  • El-Midany, A.; El-Shall, H.; Somasundaran, P.; Stana, R.; Moudgil, B. Novel Flotation Technique for Carbonate Mineral Flotation. Publ. Australas. Inst. Min. Metall. 2005, 5, 743–747.
  • Santos, E.-P.; Dutra, A.-J.-B.; Oliveira, J.-F. The Effect of Jojoba Oil on the Surface Properties of Calcite and Apatite Aiming at Their Selective Flotation. Int. J. Miner. Proc. 2015, 143, 34–38.
  • Rao, H.-K.; Forssberg, K. S. E. Mechanism of Fatty Acid Adsorption in Salt-Type Mineral Flotation. Miner. Eng. 1991, 4, 879–890.
  • Nagaraj, D.-R.; Ravishankar, S.-A. Flotation Reagents—A Critical Overview from an Industry Perspective. In Froth Flotation: A Century of Innovation; Fuetstenau M.-C., Jameson, G., Yoon, R., Eds.; SME: USA, 2007; pp 375–424.
  • Hu, Y.; Chi, R.; Xu, Z. Solution Chemistry Study of Salt-Type Mineral Flotation Systems: Role of Inorganic Dispersants. Ind. Eng. Chem. Res. 2003, 42, 1641–1647.
  • Finkelstein, N.-P. Review of Interactions in Flotation of Sparingly Soluble Calcium Minerals with Anionic Collectors. Trans. Inst. Min. Metall. 1989, 98, 157–177.
  • Rao, H.-K.; Forssberg, K.-S.-E. Interactions of Anionic Collectors in Flotation of Semi-Soluble Salt Minerals. In Innovations in Flotation Technology; Mavros, P., Matis K.-A., Ed(s).; Kluwer Academic Publishers: London, 1992; pp 331–356.
  • Tian, X.; Zhang, X.; Li, L.; Wang, D. Activation and Depression of Calcite in Calcium Minerals Flotation. Trans. Nonferrous. Met. Soc. China. 1999, 9, 374–377.
  • Pradip, R.,B. Design of Tailor-Made Surfactants for Industrial Applications Using a Molecular Modelling Approach. Coll. Sur. A. 2002, 205, 139–148.
  • Xu, L.; Wu, H.; Dong, F.; Wang, L.; Wang, Z.; Xiao, J. Flotation and Adsorption of Mixed Cationic/Anionic Collectors on Muscovite Mica. Miner Eng. 2013, 41, 41–45.
  • Tian, J.; Xu, L.; Deng, W.; Jiang, H.; Gao, Z.; Hu, Y. Adsorption Mechanism of New Mixed Anionic/Cationic Collectors in a Spodumene-Feldspar Flotation System. Chem Eng Sci. 2017, 164, 99–107.
  • Baldauf, H.; Singh, D.-V.; Schubert, H. Flotation of Tin Ores with Dicarboxylic Acids. Neue Bergbautech. 1980, 10, 692–698.
  • Marabini, A.-M.; Ciriachi, M.; Plescia, P.; Barbaro, M. Chelating Reagents for Flotation. Miner. Eng. 2007, 20, 1014–1025.
  • Bordes, R.; Holmberg, K. Physical Chemical Characteristics of Dicarboxylic Amino Acid-Based Surfactants. Coll. Surf. A. 2011, 391, 32–41.
  • Bordes, R.; Tropsch, J.; Holmberg, K. Role of an Amide Bond for Self-Assembly of Surfactants. Langmuir. 2010, 26, 3077–3083.
  • Rai, B. Ed. Molecular Modeling for the Design of Novel Performance Chemicals and Materials; CRC Press: Boca Raton, 2012.
  • Lu, S.; Song, Z.; Sun, C. Review on Some Research Methods of Mineral Crystal Chemistry and Computer Simulation on Flotation. Publ. Australas. Inst. Min. Metall. 2010, 7, 3269–3275.
  • Karlkvist, T.; Patra, A.; Rao, H.-K.; Bordes, R.; Holmberg, K. Flotation Selectivity of Novel Alkyl Dicarboxylate Reagents for Apatite–Calcite Separation. J. Coll. Inter. Sci. 2015, 445, 40–47.
  • Karlkvist, T.; Patra, A.; Bordes, R.; Holmberg, K.; Rao, K.-H. Flotation Selectivity of Novel Alkyl Dicarboxylate Reagents for Calcite-Fluorite Separation. Tenside Surfactants Detergents. 2016, 53, 516–523.
  • Castro, S.-H.; Vurdela, R.-M.; Laskowski, J.-S. The Surface Association and Precipitation of Surfactant Species in Alkaline Dodecylamine Hydrochloride Solutions. Coll. Surf. 1986, 21, 87–100.
  • Modi, H.-J.; Fuerstenau, D.-W. Flotation of Corundum. An Electrochemical Interpretation. Trans. Am. Inst. Min. Metall. Pet. Eng. 1960, 217, 381–387.
  • Young, C.-A.; Miller, J.-D. Effect of Temperature on Oleate Adsorption at a Calcite Surface: An FT-NIR/IRS Study and Review. Int. J. Miner. Process. 2000, 58, 331–350.
  • Warr, G.-G. Surfactant Adsorbed Layer Structure at Solid/Solution Interfaces: Impact and Implications of AFM Imaging Studies. Curr. Opin. Coll. Inter. Sci. 2000, 5, 88–94.
  • Paria, S.; Khilar, K.-C. A Review on Experimental Studies of Surfactant Adsorption at the Hydrophilic Solid-Water Interface. Adv. Coll. Inter. Sci. 2004, 110, 75–95.
  • Zhmud, B.; Tiberg, F. Interfacial Dynamics and Structure of Surfactant Layers. Adv Colloid Interface Sci. 2005, 113, 21–42.
  • Tiberg, F.; Brinck, J.; Grant, L. Adsorption and Surface-Induced Self-Assembly of Surfactants at the Solid-Aqueous Interface. Curr. Opin. Coll. Inter. Sci. 1999, 4, 411–419.
  • Somasundaran, P.; Fuerstenau, D.-W. Mechanisms of Alkyl Sulfonate Adsorption at the Alumina-Water Interface. J. Phys. Chem. 1966, 70, 90–96.
  • Lu, Y.; Drelich, J.; Miller, J.-D. Oleate Adsorption at an Apatite Surface Studied by Ex-Situ FTIR Internal Reflection Spectroscopy. J. Coll. Inter. Sci. 1998, 202, 462–476.
  • Kronberg, B.; Holmberg, K.; Lindman, B. Surface Chemistry of Surfactants and Polymers, Wiley: Chichester, 2014.
  • Tanford, C. The Hydrophobic Effect: Formation of Micelles and Biological Membranes, 2nd ed.; Wiley-Interscience: New York, 1980.
  • Milton, J.-R.; Joy, T.-K. Adsorption of Surface-Active Agents at Interfaces: The Electrical Double Layer. Surfactants and Interfacial Phenomena. 4th ed.; John Wiley & Sons Inc; Hoboken, NY, 2012; pp 39–122.
  • Zimmels, Y.; Lin, I.-J.; Friend, J.-P. Relation between Stepwise Bulk Association and Interfacial Phenomena for Some Aqueous Surfactant Solutions. Colloid Polymer Sci. 1975, 253, 404–421.
  • Marinakis, K.-I.; Shergold, H.-L. The Mechanism of Fatty Acid Adsorption in the Presence of Fluorite; Calcite and Barite. Int. J. Miner. Proc. 1985, 14, 161–176.
  • Somasundaran, P. Adsorption of Starch and Oleate and Interaction between Them on Calcite in Aqueous Solutions. J. Coll. Inter. Sci. 1969, 31, 557–565.

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