References
- Blokhin, A. A., Maltseva, E. E., Murashkin, E. E., Pleshkov, J. V., & Mikhaylenko, M. A. (2011). Sorption recovery of rhenium from acidic sulfate and mixed nitrate-sulfate solutions containing molybdenum. 7th International symposium on technetium and rhenium-science and utilization. Book of abstracts.
- Chen, Y.-G., He, Y., Ye, W.-M., & Jia, L.-Y. (2015). Competitive adsorption characteristics of Na(I)/Cr(III) and Cu (II)/Cr(III) on GMZ bentonite in their binary solution. Journal of Industrial and Engineering Chemistry, 26, 335–339.10.1016/j.jiec.2014.12.006
- Dąbrowska, J., & Jermakowicz-Bartkowiak, D. (2008). Modificated polymers towards rhenium sorption and desorption. In Proceedings of the XXIII international symposium on physico-chemical methods of separation (pp. 6–9).
- Dubinin, M. (1960). The potential theory of adsorption of gases and vapors for adsorbents with energetically nonuniform surfaces. Chemical Reviews, 60, 235–241.10.1021/cr60204a006
- Fouladgar, M., Beheshti, M., & Sabzyan, H. (2015). Single and binary adsorption of nickel and copper from aqueous solutions by γ-alumina nanoparticles: Equilibrium and kinetic modeling. Journal of Molecular Liquids, 211, 1060–1073. doi:10.1016/j.molliq.2015.08.029
- Günay, A., Arslankaya, E., & Tosun, İ. (2007). Lead removal from aqueous solution by natural and pretreated clinoptilolite: Adsorption equilibrium and kinetics. Journal of Hazardous Materials, 146, 362–371.10.1016/j.jhazmat.2006.12.034
- Hobson, J. P. (1969). Physical adsorption isotherms extending from ultrahigh vacuum to vapor pressure. The Journal of Physical Chemistry, 73, 2720–2727.10.1021/j100842a045
- Joo, S.-H., Kim, Y.-U., Kang, J.-G., Kumar, J. R., Yoon, H.-S., Parhi, P., & Shin, S. M. (2012). Recovery of rhenium and molybdenum from molybdenite roasting dust leaching solution by ion exchange resins. Materials Transactions, 53, 2034–2037.10.2320/matertrans.M2012208
- Kadirvelu, K., Goel, J., & Rajagopal, C. (2008). Sorption of lead, mercury and cadmium ions in multi-component system using carbon aerogel as adsorbent. Journal of Hazardous Materials, 153, 502–507.10.1016/j.jhazmat.2007.08.082
- Liu, J., & Wang, X. (2013). Novel silica-based hybrid adsorbents: Lead (II) adsorption isotherms. The Scientific World Journal, 2013, 6.
- Lou, Z., Zhao, Z., Li, Y., Shan, W., Xiong, Y., Fang, D., … Zang, S. (2013). Contribution of tertiary amino groups to Re(VII) biosorption on modified corn stalk: Competitiveness and regularity. Bioresource Technology, 133, 546–554.10.1016/j.biortech.2013.01.165
- Mikhaylenko, M., & Blokhin, A. (2012, February 19–22). Ion exchange resins tailored for effective recovery and separation of rhenium, molybdenum and tungsten. Preprint 12–156, SME Annual Meeting, Seattle, Washington.
- Nebeker, N., & Hiskey, J. B. (2012). Recovery of rhenium from copper leach solution by ion exchange. Hydrometallurgy, 125, 64–68.10.1016/j.hydromet.2012.05.008
- Rahmani, A., Mousavi, H. Z., & Fazli, M. (2010). Effect of nanostructure alumina on adsorption of heavy metals. Desalination, 253, 94–100.10.1016/j.desal.2009.11.027
- Senthilkumar, G., & Murugappan, A. (2015a). Multicomponent adsorption isotherm studies on removal of multi heavy metal ions in MSW leachate using fly ash. International Journal of Engineering Research & Technology (IJERT), 4, 58–66.
- Senthilkumar, G., & Murugappan, A. (2015b). Kinetic modeling and multicomponent isotherm studies on adsorption of multi heavy metal Ions in MSW leachate by Alcoffine. International Journal of ChemTech Research, 8, 19.
- Shahmohammadi-Kalalagh, S. (2011). Isotherm and kinetic studies on adsorption of Pb, Zn and Cu by kaolinite. Caspian Journal of Environmental Sciences, 9, 243–255.
- Sparks, D. L. (2003). Environmental soil chemistry ( 2nd ed.). San Diego, CA: Academic press.
- Srivastava, V. C., Mall, I. D., & Mishra, I. M. (2006). Equilibrium modelling of single and binary adsorption of cadmium and nickel onto bagasse fly ash. Chemical Engineering Journal, 117, 79–91.10.1016/j.cej.2005.11.021
- Sukpreabprom, H., Arqueropanyo, O.-A., Naksata, W., Sooksamiti, P., & Janhom, S. (2015). Single and binary adsorption of Cd (II) and Zn (II) ions from aqueous solutions onto bottom ash. Korean Journal of Chemical Engineering, 32, 896–902.10.1007/s11814-014-0309-7
- Van Deventer, J. (2011). Selected ion exchange applications in the hydrometallurgical industry. Solvent Extraction and Ion Exchange, 29, 695–718.10.1080/07366299.2011.595626
- Virolainen, S., Laatikainen, M., & Sainio, T. (2015). Ion exchange recovery of rhenium from industrially relevant sulfate solutions: Single column separations and modeling. Hydrometallurgy, 158, 74–82.10.1016/j.hydromet.2015.09.026
- Volk, V. I., Vakhrushin, A. Y., & Besser, A. D. (2014). Technology for rhenium recovery from solutions with extremely low concentrations. International Symposium on Technetium and Rhenium Science and Utilization, Senday, Moscow.
- Xiong, C., & Yao, C. (2010). Adsorption behavior of MWAR toward Gd(III) in aqueous solution. Iranian Journal of Chemistry and Chemical Engineering (IJCCE), 29, 59–66.
- Xiong, Y., Chen, C., Gu, X., Biswas, B. K., Shan, W., Lou, Z., … Zang, S. (2011). Investigation on the removal of Mo (VI) from Mo–Re containing wastewater by chemically modified persimmon residua. Bioresource Technology, 102, 6857–6862.10.1016/j.biortech.2011.04.040
- Zhu, Y., Hu, J., & Wang, J. (2012). Competitive adsorption of Pb(II), Cu (II) and Zn (II) onto xanthate-modified magnetic chitosan. Journal of Hazardous Materials, 221, 155–161.10.1016/j.jhazmat.2012.04.026