TY - JOUR
T1 - Heterogeneous fenton-like degradation of an azo dye reactive brilliant orange by the combination of activated carbon-FeOOH catalyst and H 2O2
AU - Wu, Jinhua
AU - Lin, Guanghui
AU - Li, Ping
AU - Yin, Weizhao
AU - Wang, Xiangde
AU - Yang, Bo
PY - 2013
Y1 - 2013
N2 - The decoloration of an azo dye reactive brilliant orange (X-GN) by a heterogeneous Fenton system using activated carbon-FeOOH catalyst (AC-FeOOH) and H2O2 was studied. Under typical conditions (pH 7.0, H2O2 10 mmol/L, AC-FeOOH 1.0g/L and 30°C), 98% decoloration rate of X-GN was achieved in 240 mm. The decoloration efficiency of X-GN increased with higher H2O2 dosage, higher AC-FeOOH dosage and higher reaction temperature. Though the catalytic reaction was an acid driven process, a sufficient decoloration performance was still obtained in neutral and alkaline conditions. Kinetic studies suggested that the decoloration of X-GN followed a pseudo-first order reaction and the activation energy was 17.2 kJ/mol. Iron leaching from AC-FeOOH occurred during the reaction, but the decoloration efficiency of X-GN was still higher than 80% after four runs. The AC-FeOOH has a good stability and can be reused. Besides, the generation of massive iron- containing sludge can be avoided after reaction as the remaining ferric ions in the solution were less than 1 mg/L in this combined H2O2and AC-FeOOH process. [ABSTRACT FROM AUTHOR]
AB - The decoloration of an azo dye reactive brilliant orange (X-GN) by a heterogeneous Fenton system using activated carbon-FeOOH catalyst (AC-FeOOH) and H2O2 was studied. Under typical conditions (pH 7.0, H2O2 10 mmol/L, AC-FeOOH 1.0g/L and 30°C), 98% decoloration rate of X-GN was achieved in 240 mm. The decoloration efficiency of X-GN increased with higher H2O2 dosage, higher AC-FeOOH dosage and higher reaction temperature. Though the catalytic reaction was an acid driven process, a sufficient decoloration performance was still obtained in neutral and alkaline conditions. Kinetic studies suggested that the decoloration of X-GN followed a pseudo-first order reaction and the activation energy was 17.2 kJ/mol. Iron leaching from AC-FeOOH occurred during the reaction, but the decoloration efficiency of X-GN was still higher than 80% after four runs. The AC-FeOOH has a good stability and can be reused. Besides, the generation of massive iron- containing sludge can be avoided after reaction as the remaining ferric ions in the solution were less than 1 mg/L in this combined H2O2and AC-FeOOH process. [ABSTRACT FROM AUTHOR]
KW - Activated carbon-FeOOH catalyst
KW - Heterogeneous Fenton
KW - Hydrogen peroxide
KW - Reactive brilliant orange
U2 - 10.2166/wst.2012.596
DO - 10.2166/wst.2012.596
M3 - Journal article
C2 - 23202562
VL - 67
SP - 572
EP - 578
JO - Water Science and Technology
JF - Water Science and Technology
SN - 0273-1223
IS - 3
ER -