用辉光放电等离子体技术对结晶紫进行了降解脱色处理,考察了多种因素对结晶紫降解效果的影响.实验发现,提高电解质浓度和增加电压均可提高结晶紫的脱色效果,考虑到电极损耗,辉光放电最佳条件为:电解质浓度为2 g/L Na2SO4,电压为600 V.当改变溶液的初始pH值时,结晶紫的脱色率随溶液的初始pH值升高而增加,加入一定量H2O2能明显地提高结晶紫的脱色效率;若加入0.4 mmol/L Fe2+,5 min时结晶紫的脱色率由原来的13.64%增加到91.36%.结果表明,辉光放电产生的·OH对结晶紫的降解起重要作用.最佳条件下,40 min内的脱色率达到93%,降解率为74%.
参考文献
| [1] | ZHENG Ji-Lu (郑冀鲁),FAN Juan(范娟),RUAN Fu-Chang (阮复昌).Chinese Environ Poll Cont (环境污染与防治[J],2002,24(1):23 |
| [2] | Abdelmalek F,Ghezzar R M,Belhadj M.Ind Eng Chem Res[J],2006,45:23 |
| [3] | ZHAO Wei-Rong(赵伟荣).Doctoral Dissertation([博士学位论文].Zhejiang(浙江):Zhejiang University(浙江大学),2004 |
| [4] | Sahoo C,Gupta A K,Anjali P.Dyes Pigments[J],2005,66:189 |
| [5] | Senthilkumaar S,Porkodi K.J Coll Interf Sci[J],2005,288:184 |
| [6] | Sanromán M A,Pazos M,Ricart M T.Chemosphere[J],2004,57:233 |
| [7] | WANG Min (王敏),ZHU Zhi-Yuan (朱志远),YANG Rui-Yuan (杨睿媛),WANG Wen-Feng (王文锋),BIAO Shao-Wei(边绍伟),SHEN Zhong-Qun(沈忠群),GU Jian-Zhong(顾建中),WU Ming-Hong(吴明红).Chinese Nucl Tech (核技術)[J],2005,28(1):40 |
| [8] | LIU Yuan-Lan(刘元兰),DU Yan-Fang(杜艳芳),LU Jia-Xing(陆嘉星).Chinese Shanghai Environ Sci(上海环境科学)[J],2003,22(12):888 |
| [9] | Gao J Z.Pakistan J Biolog Sci[J],2005,9(2):323 |
| [10] | CHEN Wei(陈伟),CHU Jin-Yu(储金宇),YANG Liu-Qing(仰榴青),WU Xiang-Yang(吴向阳).Chinese High Volt Eng(高电压技术)[J],2003,29(12):35 |
| [11] | Gai K,Dong Y J.Plasma Sour Sci Tech[J],2005,14:589 |
| [12] | Alam M S,Kelm M,Rao B S M,Janata E.Rad Phys Chem[J],2004,71:1 087 |
| [13] | Hu Z A,Wang X Y,Gao J Z.Plasma Sci Technol[J],2001,5:927 |
| [14] | Ohgiyama M T,Clements J S.IEEE Trans Ind Appl[J],1996,32(1):106 |
| [15] | Sengupta S K,Sign Om Prakash.J Electoanal Chem[J],1994,369:113 |
| [16] | Tezuka M,Iwasaki M.Plasma Ions[J],1999,1:23 |
| [17] | Tezuka M,Iwasaki M.Thin Solid Films[J],1998,316:123 |
| [18] | Tezuka M,Iwasaki M.Thin Solid Films[J],2001,386:204 |
| [19] | Amano R,Tezuka M.Water Res[J],2006,40:1 875 |
| [20] | Gao J Z,Yu J,Li Y.J Hazard Mater[J],2006,B137:431 |
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