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Separation Science and Technology Volume 52, 2017 - Issue 6
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Membranes

Uranium membrane separation from binary aqueous solutions of UO22+-K+ and UO22+-Ca2+ by the nanofiltration process

M. Ghasemi TorkabadNuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, AEOI, Tehran, Iran
,
A. R. KeshtkarNuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, AEOI, Tehran, IranCorrespondence[email protected]
&
S. J. SafdariNuclear Fuel Cycle Research School, Nuclear Science and Technology Research Institute, AEOI, Tehran, Iran
Pages 1095-1105 | Received 18 Jun 2016, Accepted 03 Jan 2017, Published online: 22 Feb 2017

References

  • St John, A.M.; Cattrall, R.W.; Kolev, S.D. (2010) Extraction of uranium(VI) from sulfate solutions using a polymer inclusion membrane containing di-(2-ethylhexyl) phosphoric acid. Journal of Membrane Science, 364 (1–2): 354–361.
  • St John, A.M.; Cattrall, R.W.; Kolev, S.D. (2012) Transport and separation of uranium(VI) by a polymer inclusion membrane based on di-(2-ethylhexyl) phosphoric acid. Journal of Membrane Science, 409–410:242–250.
  • Habashi, F. (1996) The Recovery of Uranium and the Lanthanides from Phosphate Rock. In Third Arab Conference on the Peaceful Uses of Atomic Energy, Damascus. pp. 373–378.
  • Tamada, M. (2009) Current status of technology for collection of uranium from seawater. In Erice seminar 2009, Japan.
  • Uranium Extraction Technology. In IAEA: Vienna, 1993; Vol. Technical Reports Series No. 359, p. 380.
  • Edwards, C.R.; Oliver, A.J. (2000) Uranium processing: a review of current methods and technology. JOM, 52 (9): 12–20.
  • Tanninen, J.; Platt, S.; Weis, A.; Nyström, M. (2004) Long-term acid resistance and selectivity of NF membranes in very acidic conditions. Journal of Membrane Science, 240: 11–18.
  • Van der Bruggena, B.; Manttari, M.; Nystrom, M. (2008) Drawbacks of applying nanofiltration and how to avoid them: A review. Separation and Purification Technology, 63: 251–263.
  • Al-Rashdi, B.A.M.; Johnson, D.J.; Hilal, N. (2013) Removal of heavy metal ions by nanofiltration. Desalination, 315: 2–17.
  • Lashkari, S.; Mok, F.; Ramasubbu, G.; Mumba, A. Hydrometallurgical process using multi-stage nanofiltration. WO 2014/029017 A1, 2014
  • Shang, G.; Zhang, G.; Gao, C.; Fu, W.; Zeng, L. (2014) A novel nanofiltration process for the recovery of vanadium from acid leach solution. Hydrometallurgy, 142: 94–97.
  • Favre-Reguillon, A.; Lebuzit, G.; Murat, D.; Foos, J.; Mansour, C.; Draye, M. (2008) Selective removal of dissolved uranium in drinking water by nanofiltration. Water Research, 42: 1160–1166.
  • Raff, O.; Wilken, R.D. (1999) Removal of dissolved uranium by nanofiltration. Desalination, 122: 147–150.
  • Chellam, S.; Clifford, D.A. (2002) Physical–chemical treatment of groundwater contaminated by leachate from surface disposal of uranium tailings. Journal of Environmental Engineering, 128 (10): 942–952.
  • Rossiter, H.M.A.; Graham, M.C.; Schäfer, A.I. (2010) Impact of speciation on behaviour of uranium in a solar powered membrane system for treatment of brackish groundwater. Separation and Purification Technology, 71: 89–96.
  • Treatment of liquid effluent from uranium mines and mills. In IAEA: 2004; Vol. TECDOC-1419, pp. 27–44.
  • Favre-Reguillon, A.; Lebuzit, G.; Foos, J.; Guy, A.; Draye, M.; Lemaire, M. (2003) Selective concentration of uranium from seawater by nanofiltration. Industrial & Engineering Chemistry Research, 42: 5900–5904.
  • Favre-Reguillon, A.; Lebuzit, G.; Foos, J.; Guy, A.; Sorin, A.; Lemaire, M.; Draye, M. (2005) Selective rejection of dissolved uranium carbonate from seawater using cross-flow filtration technology. Separation Science and Technology, 40: 623–631.
  • Mishra, S.L.; Vijayalakshmi, R.; Singh, H. (2005) Extraction of uranium from acidic media with a novel synergistic mixture of di-nonyl phenyl phosphoric acid and tri-n-octyl phosphine oxide. Indian Journal of Chemical Technology, 12: 708–712.
  • Misra, S.K.; Mahatele, A.K.; Tripathi, S.C.; Dakshinamoorthy, A. (2009) Studies on the simultaneous removal of dissolved DBP and TBP as well as uranyl ions from aqueous solutions by using Micellar-Enhanced Ultrafiltration Technique. Hydrometallurgy, 96: 47–51.
  • Diallo, H.; Rabiller-Baudry, M.; Khaless, K.; Chaufer, B. (2013) On the electrostatic interactions in the transfer mechanisms of iron during nanofiltration in high concentrated phosphoric acid. Journal of Membrane Science, 427: 37–47.
  • Schmidt, P.; Köse, T.; Lutze, P. (2013) Characterisation of organic solvent nanofiltration membranes in multi-component mixtures: Membrane rejection maps and membrane selectivity maps for conceptual process design. Journal of Membrane Science, 429: 103–120.
  • Malaisamy, R.; Talla-Nwafo, A.; Jones, K.L. (2011) Polyelectrolyte modification of nanofiltration membrane for selective removal of monovalent anions. Separation and Purification Technology, 77 (3): 367–374.
  • Gherasim, C.V.; Cuhorka, J.; Mikulášek, P. (2013) Analysis of lead(II) retention from single salt and binary aqueous solutions by apolyamide nanofiltration membrane: Experimental results and modelling. Journal of Membrane Science, 436: 132–144.
  • Ballet, G.T.; Gzara, L.; Hafiane, A.; Dhahbi, M. (2004) Transport coefficients and cadmium salt rejection in nanofiltration membrane. Desalination, 167: 369–376.
  • Liu, S.; Li, Z.; Wang, C.; Jiao, A. (2013) Enhancing both removal efficiency and permeate flux by potassium sodium tartrate (PST) in a nanofiltration process for the treatment of wastewater containing cadmium and zinc. Separation and Purification Technology, 116: 131–136.
  • Fang, J.; Deng, B. (2014) Rejection and modeling of arsenate by nanofiltration: Contributions of convection, diffusion and electromigration to arsenic transport. Journal of Membrane Science, 453: 42–51.
  • Zuo, W.; Zhang, G.; Meng, Q.; Zhang, H. (2008) Characteristics and application of multiple membrane process in plating wastewater reutilization. Desalination, 222: 187–196.
  • Artug, G. (2007) Modelling and Simulation of Nanofiltration Membranes. Cuvillier Verlag: Göttingen, 248.
  • Gherasim, C.V.; Mikulášek, P. (2014) Influence of operating variables on the removal of heavy metal ions from aqueous solutions by nanofiltration. Desalination, 343: 67–74.

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