References
- Elvers, B.; Hawkins, S.; Russey, W.E. (2002) Ullmann’s Encyclopedia of Industrial Chemistry, 6th Ed.; Wiley-VCH: Weinheim, Cambridge.
- Coman, V.; Robotin, B.; Ilea, P. (2013) Nickel recovery/removal from industrial wastes: A review. Resources, Conservation and Recycling, 73: 229.
- DiBari, G.A. (2001) Nickel plating. Metal Finishing, 99: 270.
- Benvenuti, T.; Krapf, R.S.; Rodrigues, M.A.S.; Bernardes, A.M.; Zoppas-Ferreira, J. (2014) Recovery of nickel and water from nickel electroplating wastewater by electrodialysis. Separation and Purification Technology, 129: 106.
- Peng, C.; Jin, R.; Li, G.; Li, F.; Gu, Q. (2014) Recovery of nickel and water from wastewater with electrochemical combination process. Separation and Purification Technology, 136: 42.
- Barakat, M.A. (2011) New trends in removing heavy metals from industrial wastewater. Arabian Journal Chemistry, 4: 361.
- Marder, L.; Bernardes, A.M.; Ferreira, J.Z. (2004) Cadmium electroplating wastewater treatment using a laboratory-scale electrodialysis system. Separation and Purification Technology, 37: 247.
- Fu, F.; Wang, Q. (2011) Removal of heavy metal ions from wastewaters: A review. Journal of Environmental Management, 92: 407.
- Zhi, W.; Guangchun, L.; Zhifeng, F.; Xingtao, Y.; Jixiao, W.; Shichan, G.W. (2007) Experimental study on treatment of electroplating wastewater by nanofiltration. Journal of Membrane Science, 305: 185.
- Kurniawan, T.A.; Chan, G.Y.S.; Lo, W.-H.; Babel, S. (2006) Physico–chemical treatment techniques for wastewater laden with heavy metals. Chemical Engineering Journal, 118: 83.
- Blais, J.-F.; Dufresne, S.; Mercier, G. (1999) State of the art of technologies for metal removal from industrial effluents. Reviews Sciences Eau, 12: 687.
- Zhao, M.; Xu, Y.; Zhang, C.; Rong, H.; Zeng, G. (2016) New trends in removing heavy metals from wastewater. Applied Microbiology and Biotechnology, 100: 6509.
- Kumbasar, R.A. (2009) Extraction of chromium (VI) from multicomponent acidic solutions by emulsion liquid membranes using TOPO as extractant. Journal of Hazardous Materials, 167: 1141.
- Eyupoglu, V.; Polat, E. (2015) Evaluation of Cd(II) transport with imidazolium bromides bearing butyl and isobutyl groups as extractants from acidic iodide solutions by liquid-liquid solvent extraction. Fluid Phase Equilibrium, 394: 46.
- Gega, J.; Walkowiak, W.; Gajda, B. (2001) Separation of Co(II) and Ni(II) ions by supported and hybrid liquid membranes. Separation and Purification Technology, 22-23: 551.
- Eyupoglu, V.; Kumbasar, R.A. (2015) Extraction of Ni(II) from spent Cr-Ni electroplating bath solutions using LIX 63 and 2BDA as carriers by emulsion liquid membrane technique. Journal of Industrial and Engineering Chemistry, 21: 303.
- Eyupoglu, V.; Kumbasar, R.A. (2014) Selective and synergistic extraction of nickel from simulated Cr-Ni electroplating bath solution using LIX 63 and D2EHPA as carriers. Separation Science and Technology, 49: 2485.
- Eyupoglu, V.; Surucu, A.; Kunduracioglu, A. (2015) Synergistic extraction of Cr(VI) from Ni(II) and Co(II) by flat sheet supported liquid membranes using TIOA and TBP as carriers. Polish Journal of Chemical Technology, 17: 34.
- Peng, C.; Liu, Y.; Bi, J.; Xu, H.; Ahmed, A.-S. (2011) Recovery of copper and water from copper-electroplating wastewater by the combination process of electrolysis and electrodialysis. Journal of Hazardous Materials, 189: 814.
- Lu, H.; Wang, Y.; Wang, J. (2015) Recovery of Ni2+ and pure water from electroplating rinse wastewater by an integrated two-stage electrodeionization process. Journal Clean Products, 92: 257.
- Benvenuti, T.; Siqueira Rodrigues, M.A.; Bernardes, A.M.; Zoppas-Ferreira, J. (2016) Closing the loop in the electroplating industry by electrodialysis. Journal of Cleaner Production, doi: 10.1016/j.jclepro.2016.05.139.
- Abbas, A.; Al-Amer, A.M.; Laoui, T.; Almarri, M.; Nasser, M.; Khraisheh, M.; Atieh, M.A. (2015) Heavy metal removal from aqueous solution by advanced carbon nanotubes: critical review of adsorption applications. Separation and Purification Technology, 157: 141.
- Noble, R.D.; Stern, S.A. (2003) Membrane Separations Technology: Principles and Applications; Amsterdam: Elsevier Science B.V.
- Baker, R.W. (2004) Membrane Technology and Applications; Hoboken, NJ: John Wiley & Sons Inc.
- Frioui, S.; Oumeddour, R.; Lacour, S. (2017) Highly selective extraction of metal ions from dilute solutions by hybrid electrodialysis technology. Separation and Purification Technology, 174: 264.
- Babilas, D.; Dydo, P. (2017) Transport of selected transition metal ions across heterogeneous membranes in ED enhanced with complex formation. Desalination Water Treatment, 64: 237.
- Tzanetakis, N.; Taama, W.M.; Scott, K.; Jachuck, R.J.J.; Slade, R.S.; Varcoe, J. (2003) Comparative performance of ion exchange membranes for electrodialysis of nickel and cobalt. Separation and Purification Technology, 30: 113.
- Vasil’eva, V.I.; Akberova, E.M.; Zhiltsova, A.V.; Chernykh, E.I.; Sirota, E.A.; Agapov, B.L. (2013) SEM diagnostic of the surface of MK-40 and MA-40 heterogeneous ion-exchange membranes in the swollen state after thermal treatment. Journal of Surface Investigation, X-Ray, Synchrotron and Neutron Techniques, 9: 27.
- Dydo, P.; Babilas, D.; Jakóbik-Kolon, A.; Franczak, A.; Nycz, R. (2016) The effectiveness of nickel recovery from spent electroplating baths by electrodialysis. Desalination Water Treatment, 64: 233.
- Dydo, P. (2013) The influence of d-mannitol on the effectiveness of boric acid transport during electrodialytic desalination of aqueous solutions. Journal of Membrane Science, 429: 130.
- Dydo, P. (2012) The mechanism of boric acid transport during an electrodialytic desalination process. Journal of Membrane Science, 407-408: 202.
- Gherasim, C.V.; Křivčík, J.; Mikulášek, P. (2014) Investigation of batch electrodialysis process for removal of lead ions from aqueous solutions. Chemical Engineering Journal, 256: 324.