关键词: 氯酚, 漆酶, 催化降解, 酶固定化

Abstract: Laccase being catalyzer, the degradation mechanism of 2,4-Dichlorophenol, 4-Chlorophenol and 2-Chlorophenol is studied. The effects of reaction time, pH, temperature, concentration of chlorophenols and laccase on the removal of chlorophenols are discussed in detail, as well as the optimum reaction condition. The results indicate that reactivity of 2,4-DCP is better than that of other two chlorophenols under laccase catalyzing, with a degradation rate of 94% in 10 h， then 2-CP, 75% and 4-CP 69% in 10 h. The suitable pH for laccase to degrade chlorophenols is around 5.5. The removal of chlorophenols increases with increase of laccase concentration and temperature, but effects of increase of concentration of chlorophenols on the removal of chlorophenol are different. The reaction of degradation 2,4-DCP catalyzed by laccase followed the first-order reaction and the reaction activation energy is about 44.8 kJ·mol^-1. In addition, laccase is immobilized by using crosslinked chitosan with glutaraldehyde.The activity of immobilized laccase is lower than that of free laccase, but the stability is increased significantly. The immobilized laccase is used to degrade 2,4-DCP repeatedly in 6 days, and the degradation rate in 6 h is more than 60% throughout.

Key words: chlorophenol, laccase, catalytical degradation, immobilized enzyme