Study on wet air oxidation of aqueous ferrous cyanide solution catalyzed by three metal salts

The catalytic wet oxidation (CWO) process with Cu2+, Mn2+, and Ce2+ as cata lysts, respectively, was applied to investigate the degradation of ferrocya nide (Fe(CN)(6)(4-)) solution. For the conversions of Fe(CN)(64) during the noncatalytic wet oxidation (WO) process up to 99.9 % was attained after a reaction time of 70 min. The COD removal efficiency was observed as only 38 % in a noncatalytic oxidation; however, ii could be enhanced to 75%, 61%, a nd 50% in the presence of Cu2+, Mn2+, and Ce2+, respectively. Both noncatal ytic and catalytic wet oxidation processes of Fe(CN)(6)(4-) solution were c onsidered to be a two-step reaction at pH 9.0 and temperatures of 433-473 K . The oxidation rate was initially fast, followed by a slow step, which did obey first-order kinetics with respect to chemical oxygen demand (COD). Bo th the Cu2+ and Ce2+ catalyzed oxidation showed a significant effect on the reduction of activation energy during the first reaction of the WO runs.