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曝气催化铁炭微电解预处理THF废水的实验研究
引用本文:方大伟,杨永忠,房发俐. 曝气催化铁炭微电解预处理THF废水的实验研究[J]. 应用化工, 2009, 38(9): 1391-1394
作者姓名:方大伟  杨永忠  房发俐
作者单位:西安瑞联近代电子材料有限责任公司,陕西,西安,710077
摘    要:分别用普通铁炭微电解法和曝气催化铁炭微电解法处理THF废水。结果表明,普通铁炭微电解工艺的处理效果与Fe/C质量比、pH值、反应时间等因素有关;采用曝气催化铁炭微电解工艺预处理四氢呋喃废水,在反应时间为120 m in、进水COD为10 000 mg/L左右、pH<4时,对COD的去除率>70%,较普通铁炭微电解工艺有明显的提高,且不易发生板结。

关 键 词:四氢呋喃废水  曝气催化铁炭微电解工艺  预处理

Study on pretreatment of tetrahydrofuran wastewater by ferric-carbon micro-electrolysis
FANG Da-wei,YANG Yong-zhong,FANG Fa-li. Study on pretreatment of tetrahydrofuran wastewater by ferric-carbon micro-electrolysis[J]. Applied chemical industry, 2009, 38(9): 1391-1394
Authors:FANG Da-wei  YANG Yong-zhong  FANG Fa-li
Abstract:THF wastewater was treated by ferric-carbon micro-electrolysis and aerated catalytic ferric-carbon micro-electrolysis respectively.The results indicated that the treatment effect of ferric-carbon micro-electrolysis depended on these factors such as the mass ratio of ferrum and carbon,pH,reaction time and so on.The technique of aerated and catalyzed ferric-carbon micro-electrolysis which treated tetrahydrofuran wastewater were studied.When the COD in influent is 10 000 mg/L,the reaction time for the micro-electrolysis is approximately 120 min and pH is less than 4,the removal rate of COD is over 70%.In addition,the removal rate of aerated and catalyzed ferric-carbon micro-electrolysis is higher than the traditional ferric-carbon micro-electrolysis,and it isn't inclined to harden.
Keywords:tetrahydrofuran wastewater  aerated and catalyzed ferric-carbon micro-electrolysis  pretreatment
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