Development and optimization of Cu-Zr/Ti cathode for removing copper from contaminated water using electrochemical reduction

References

E.C. de Oliveira-Filho, R.M. Lopes, F.J.R. Paumgartten, Comparative study on the susceptibility of freshwater species to copper-based pesticides, Chemosphere, 56 (2004) 369–374.
K. Schiff, J. Brown, D.D. Schiff, Extent and Magnitude of Copper Contamination in Marinas of the San Diego Region, California, Southern California Coastal Water Research Project, Technical report 483, 2006.
W. Jantsch, K. Kulig, B.H. Rumak, Massive copper sulfate ingestion resulting in hepatotoxicity, Clin. Toxicol., 22 (1984) 585–588.
S.K. Agrawal, S.C. Tiwari, S.C. Dash, Spectrum of poisoning requiring hemodialysis in a tertiary care hospital in India, Int. J. Artif. Organs., 16 (1993) 3–20.
National Primary Drinking Water Regulations, United States Environmental Protection Agency (USEPA), 2009.
E. Pehlivan, T. Altun, Ion-exchange of Pb²⁺, Cu²⁺, Zn²⁺, Cd²⁺, and Ni²⁺ ions from aqueous solution by Lewatit CNP 80, J. Hazard. Mater., 140 (2007) 299–307.
Y. Sang, F. Li, Q. Gu, C. Liang, J. Chen, Heavy metalcontaminated groundwater treatment by a novel nanofiber membrane, Desalination, 223 (2008) 349–360.
M.S. Rahman, M.R. Islam, Effects of pH on isotherms modeling for Cu(II) ions adsorption using maple wood sawdust, Chem. Eng. J., 149 (2009) 273–280.
K.G.N. Nanayakkara, Ballast Water Disinfection Using Electrochemical Technologies, Dissertation, National University of Singapore, 2010.
J.P. Padmasiri, W.M. Jayawardana, Removal of alkalinity, hardness and fluoride in drinking water by electrocoagulation: a study in Asokamalagama, Vilachchiya in Anuradhapura district, Proceedings of the Water Professionals’ Day Symposium- 2010, Sri Lanka, 1st October 2010, pp. 29–36.
S. Vasudevan, J. Lakshmi, G. Sozhan, Electrocoagulation studies on the removal of copper from water using mild steel electrode, Water Environ. Res., 84 (2012) 209–219.
S. Vasudevan, J. Lakshmi, Process conditions and kinetics for the removal of copper from water by electrocoagulation, Environ. Eng. Sci., 29 (2012) 563–572.
L.C. Almeida, L.H.S. Gasparotto, N. Bocchi, R.C. Rocha-Filho, S.R. Biaggio, Galvanostatic Pb(II) removal from a simulated wastewater by using a stainless-steel wool cathode in a flowthrough cell: a factorial-design study, J. Appl. Electrochem., 38 (2008) 167–173.
C.A. Basha, N.S. Bhadrinarayana, N. Anantharaman, K.M.M.S. Begum, Heavy metal removal from copper smelting effluent using electrochemical cylindrical flow reactor, J. Hazard. Mater., 152 (2008) 71–78.
L.A. Khattab, M.F. Shaffei, N.A. Shaaban, H.S. Hussein, S.S. Abd El-Rehim, Electrochemical removal of copper ions from dilute solutions using packed bed electrode. Part 1, Egypt. J. Petrol., 22 (2013) 199–203.
C. Weerakkody, G.C. Pathiraja, P. Karunarathne, N. Nanayakkara, Development of corrosion resistant composite coating with copper and zirconium, Ceylon J. Sci. – Phys. Sci., 19 (2015) 17–21.
D. Grujicic, B. Pesic, Electrodeposition of copper: the nucleation mechanisms, Electrochim. Acta, 47 (2002) 2901–2912.
R. Kamaraj, P. Ganesan, J. Lakshmi, S. Vasudevan, Removal of copper from water by electrocoagulation process – effect of alterating current (AC) and direct current (DC), Environ. Sci. Pollut. Res., 20 (2013) 399–412.