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Purpose: The aim of the conducted studies was to determine the possibility of selective separation and precipitation of metal ions from polimetalic solution containing nickel(II), cobalt(II), cadmium(II) and zinc(II) cations using polymer inclusive membranes. 1-decylimidazole was used in membrane as a carrier of ions. The influence of chloride anions concentration on the process has also been investigated. Design/methodology/approach: Polymer inclusive membranes (PIM) containing cellulose acetate as a matrix, orto-nitrophenyl octyl ether (ONPOE) as a plasticizer and 1-decylimidazole as a carrier were used in investigations. The membrane processes were carried out in a membrane module for 24 hours. Findings: The results obtained point out a significant influence of chloride anions concentration on separation process of certain metal ions. It was observed that zinc(II) ions are isolated most effectively from the solution containing 2M of chloride anions. About 88% of Zn(II), 5.5% of Co(II), 6.5% of Cd(II) and below 1% of Ni(II) were separated from such a solution. Research limitations/implications: The obtained results show that it is possibility of the selective extraction of heavy metal ions from polymetallic chloride solutions in membrane processes. The aqueous solution containing 2M of chloride ions was used in the investigation. Practical implications: The results show that Zn(II) can be effectively recovered from solutions containing Co(II), Cd(II) and Ni(II). This process would allow the utilization of waste solutions containing the heavy metal ions. The results of the study presented in the paper can be used in the utilization process of the spent batteries and accumulators. Originality/value: The innovative issue shown in this paper concerns the usage of 1-decylimidazole in selective separation of nickel(II), cobalt(II), cadmium(II) and zinc(II) ions in membrane process using PIM.
Wydawca
Rocznik
Tom
Strony
673--678
Opis fizyczny
Bibliogr. 13 poz., rys., tab.
Twórcy
autor
- Department of Metal Extraction and Recirculation, Częstochowa University of Technology, Al. Armii Krajowej 19, 42-200 Częstochowa, Poland
autor
- Division of Process Engineering, Poznań University of Technology, Pl. M. Skłodowskiej-Curie 2, 60-965 Poznań, Poland
Bibliografia
- [1] J.R. Amber, Ch.H. Gammons, G.K. Druschel, H. Oduro, S.R. Poulson, Geochemistry of Flooded Underground Mine Workings Influenced by Bacterial Sulfate Reduction, Aquatic Geochemistry 13 (2007) 211-235.
- [2] B. Jablonska, J. Sobik-Szołtysek, Radium-carrying mine waters treatment with use of sorbents, Proceedings of ECOpole 1/2 (2007) 141-145.
- [3] D. Banks, P.L. Younger, R.-T. Arnesen, E.R. Iversen, S.B. Banks, Mine-water chemistry: the good, the bad and the ugly, Environmental Geology 32 (1997) 157-174.
- [4] B.R. Reddy, D. N. Priya, S. V. Rao, P. Radhika, Solvent extraction and separation of Cd(II), Ni(II) and Co(II) from chloride leach liquors of spent Ni-Cd batteries using commercial organo-phosphorus extractants, Hydrometallurgy 77 (2005) 253-261.
- [5] N. Aouad, G. Miquel-Mercier, E. Bienvenue, E. Tronel-Peyroz, Lasalocid (X537A) as a selective carrier for Cd(II) in supported liquid membranes, Journal of Membrane Science 139 (1998) 167.
- [6] M. Ulewicz, W. Walkowiak, Selective removal of transition metal ions in transport through polymer inclusion membranes with organophosphorus acids, Environment Protection Engineering 31 (2005) 73-81.
- [7] C.A. Kozłowski, W. Walkowiak, W. Pellowski, J. Kozioł, Competitive transport of toxic metal ions by polymer inclusion membranes, Journal of Radioanalytical and Nuclear Chemistry 253 (2002) 389.
- [8] B. Pośpiech, W. Walkowiak, Separation of copper(II), cobalt(II) and nickel(II) from chloride solutions by polymer inclusion membranes, Separation and Purification Technology 57 (2007) 461-465.
- [9] W. Walkowiak, W. Bartsch, R.C.A. Kozłowski, J. Gega, W. Charewicz, B. Amiri-Eliasi, Separation and removał of metal ionic species by połymer inclusion membranes, Journal of Radioanałytical and Nuclear Chemistry 246 (2000) 643-650.
- [10] E. Radzymińska-Lenarcik, Influence of the steric hindrance, ligand hydrophobicity, and DN of solvents on structure and extraction of Cu(II) complexes of 1-alkyl-2-ethylimidazoles, Separation Science and Technology 43 (2008) 794-814.
- [11] J.G.H. du Preez, T.I.A. Gerber, W. Edge, V.L.V. Mtotywa, B.J.A.M. van Brecht, Nitrogen reagents in metal ion separation, The synthesis and extraction behavior of a new imidazole derivative, Solvent Extraction and Ion Exchange 19 (2001) 143-154.
- [12] E. Radzymińska-Lenarcik, the influence of the alkyl chain length on extraction equilibrium of Cu(II) complexes with 1-alkylimidazoles in aqueous solution/organic solvent systems, solvent extraction and ion exchange 25 (2007) 53-64.
- [13] B. Gajda, A. Skrzypczak, M.B. Bogacki, Separation of cobalt (II), nickel (II), zinck (II) and cadium (II) ions from chloride solutions, Physicochemical Problems of Mineral Processing 46 (2010) 289-294.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-02f9a9d2-4fd4-4da4-9e2c-476a9ebeb1df