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活性炭-H2O2催化氧化降解对氨基苯酚(PAP)废水
引用本文:许丹倩,严新焕,楼芝英,怀哲明,徐振元. 活性炭-H2O2催化氧化降解对氨基苯酚(PAP)废水[J]. 中国环境科学, 2000, 20(2)
作者姓名:许丹倩  严新焕  楼芝英  怀哲明  徐振元
作者单位:浙江工业大学化工学院,浙江,杭州,310014
基金项目:浙江省测试基金!99045
摘    要:以活性炭作催化剂、H_2O_2作氧化剂催化氧化降解对氨基苯酚(PAP;结果表明,在H_2O_2/COD_0=1.0,活性炭/H_2O_2=0.5,pH=2的条件下,降解反应可在180min内结束,PAP的去除率高于99%,COD去除率达74.0%,与Fenton试剂法相比较,COD去除率提高1.75倍.并对降解机理作了初步的探讨.

关 键 词:活性炭催化剂  降解  对氨基苯酚

Activated carbon-H2O2 catalytic oxidation process for p-aminophenol (PAP) degradation of water treatment
XU Dan-qian,YAN Xin-huan,LOU Zhi-ying,HUAI Zhe-ming,XU Zhen-yuan. Activated carbon-H2O2 catalytic oxidation process for p-aminophenol (PAP) degradation of water treatment[J]. China Environmental Science, 2000, 20(2)
Authors:XU Dan-qian  YAN Xin-huan  LOU Zhi-ying  HUAI Zhe-ming  XU Zhen-yuan
Abstract:Catalytic oxidation process for the p-aminophenol degradation was investigated by using activated carbon as catalyst and H_2O_2, as oxidant. Results showed that under the conditions of H_2O_2/COD_0=1.0, carbon/H_2O_2=0.5 and pH=2, the digradation reacion completed within 180 minutes with over 99% of PAP removal and 74.0% of COD removal Which was improved to be 1.75 times of the COD removal obtained by Fenton method. The degradation mechedsm was dis- cussed preliminarily.
Keywords:activated carbon catalyst  degradation  p-aminophenol
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