[1]
|
Abell, M.L. and Barselton, P.J. (1974) The maple V handbook. AP Professional, New York.
|
[2]
|
Contescu, C., Jagiello, J. and Schwarz, J.A. (1995) Proton affinity distributions: A scientific basis for the design and construction of supported metal catalysts. Preparation of Catalysts VI, Scientific Bases for the Preparation of Heterogeneous Catalysts, Elsevier Science, New York.
|
[3]
|
Cooper, D. and Plane, A.R. (1966) Cyanide complexes of copper with ammonia and ethylenediamine. Inorganic Chemistry, 5, 1677-1681.
|
[4]
|
Gupta, A., Johnson, E.F. and Schlossel, R.H. (1987) Investigation into the ion exchange of the cyanide complexes of Zinc(II), Cadmium(II), and Copper(I) Ions. Industrial Engineering Chemistry Research, 26, 588-597.
|
[5]
|
Hogfeldt, E. (1982) Stability constants of metal-ion complexes: part A: inorganic ligands, Pergamon Press, Oxford.
|
[6]
|
Riley, T.C. and Semmens, J.M. (1994) Recovery of cadmium and cyanide using a combination of ion exchange and membrane extraction. Plating and Surface Finishing, 81, 46-54.
|
[7]
|
Tan, T.C. and Teo, W.K. (1987) Destruction of cyanides by thermal hydrolysis. Plating and Surface Finishing, 74, 70-76.
|
[8]
|
Tien, C. (1994) Adsorption calculations and modeling. Butterworth-heinemann series in chemical engineering, Butterworth Heinemann, Boston.
|
[9]
|
Wedl, A.G. and Fulk, J.D. (1991) Cyanide destruction in plating sludges by hot alkaline chlorination. Metal Finish, 89, 33-38.
|
[10]
|
Gupta, C.G. and Murkherjee, T.K. (2001) Hydrometallurgy in extraction process, CRC press, Florida.
|
[11]
|
Zhou, C.D. and Chin, D.T. (1994) Continuous electrolytic treatment of complex metal cyanides with a rotating barrel plater as the cathode and a packed bed as the anode. Plating and Surface Finishing, 81, 70-81.
|
[12]
|
Gill, J.B., Gans, P., Dougal, J.C. and Johnson, L.H. (1991) Cyano and thiocyano complexation in solutions of noble metals, Reviews in Inorganic Chemistry, 11, 177-182.
|
[13]
|
Bhakta, D., Shukla, S.S. and Margrave, L.J. (1992) A novel photocatalytic method for detoxification of cyanide wastes. Environmental Science & Technology, 26, 625- 634.
|
[14]
|
Bhargava, S., Tardío, J., Prasad, J., F?ger, K., Akolekar, D. and Grocott, S. (2006) Wet oxidation and catalytic wet oxidation. Industrial & Engineering Chemical Research, 45, 1221-1234.
|
[15]
|
Lei, L., Hu, X., Chen, G., Porter, J.F. and Yue, P.L. (2000) Wet air oxidation of desizing wastewater from textile industry. Industrial & Engineering Chemical Research, 39, 2896-2905.
|
[16]
|
Mantzavinos, D., Hellenbrand, R., Livingston, A.G. and Metcalfe, I.S. (1996) Catalytic wet air oxidation of pol- yethylene glycol. Applied Catalysis B: Environmental, 11, 99-107.
|
[17]
|
Kolaczkowski, S.T., Plucinski, P., Beltran, F.J., Rivas, F. J., and Mc Lurgh, D.B. (1999) Wet air oxidation: A review of process technologies and aspects in reactor design, Chemical Engineering Journal, 73, 143-152.
|
[18]
|
Luck, F. (1999) Wet air oxidation: Past, present and future. Catalysis Today, 53, 81-89.
|
[19]
|
Pintar, A. (2003) Catalytic process for the purification of drinking water and industrial effluents. Catalysis Today, 77, 451-462.
|
[20]
|
Fortuny, A., Bengoa, C., Font, J., Catells, F. and Fabregat, A. (1999) Water pollution abatement by catalytic wet air oxidation in a trickle bed reactor, Catalysis Today, 53, 107-112.
|
[21]
|
Deiana, A.C., Granados, D., Petkovic, L.M., Sardella, M. F. and Silva, H.S. (2004) Use of grape must binder to obtain activated carbon briquettes. Brazilian Journal of Chemical Engineering, 21, 585-592.
|
[22]
|
Moreno-Piraján, J.C. and Giraldo, L. (2010) Study of activated carbons by pyrolysis of cassava peel in the presence of chloride zinc. Journal of Analytical and Applied and Pyrolysis, 87(2), 288-290.
|
[23]
|
Moreno-Piraján, J.C. and Giraldo, L. (2010) Adsorption of copper from aqueous solution by activated carbons obtained by pyrolysis of cassava peel. Journal of Analytical Applied and Pyrolysis, 7(2), 188-193.
|
[24]
|
Rodríguez-Reinoso F. (1998) The role of carbon materials in heterogeneous catalysis, Carbon, 36, 159-164.
|