张翠萍;刘益平;朱丽红;

• 1:中山大学环境科学与工程学院
• 2:广东省博罗环境保护局

摘要(Abstract)：

对喹啉废水处理的新工艺和新技术(高级氧化处理技术、生物降解、共基质协同降解等)在实验和实际中的应用作一综述,并对以后的含喹啉废水的处理做出展望。

关键词(KeyWords)： 喹啉;高级氧化;生物降解;共基质降解

Abstract:

Keywords:

基金项目(Foundation):

作者(Authors): 张翠萍;刘益平;朱丽红;

参考文献(References)：

• [1]Miethling R,Hecht V,Deckwer WD.Microbial degradationof quinoline:kinetic studies with comamonas acidovorans DSM6426.Biotechnol Bioeng 1993,42:589-595.
• [2]Sutton SD,Pfaller SL,Shann JR,Warshawsky D,KinkleBK,Vestal JR.Aerobic biodegradation of 4-methylquinoline by asoil.
• [3]Sideropoulos AS,Secht SM.Evaluation of microbialtestingme-thods for the mutagenicity of quinoline and its derivatives.Mutat Res 1984,11:59-66.
• [4]Minako N,Takio Y,Yuko S,Takashi S.Mutagenicities ofquinoline and its derivatives.Mutat Res 1977,42:335-342.
• [5]何苗,张晓健,瞿福平等.焦化废水中芳香族有机物及杂环化合物在活性污泥法处理中的去除特性.中国给水排水,1997,13(1):14-17.
• [6]方喜玲,成捷,胡兰花等.TiO2/H2O2/UV和TiO2/O3/UV讲解对氯苯甲酸和奎琳的实验研究.环境污染治理技术与设备,2005,6(9):12-15.
• [7]张文兵.均相和非均相高级氧化技术处理水中有机污染物的研究[博士论文].广州:中国科学院广州地球化学研究所,2003.
• [8]王嘉,周涛,任大军,等.喹啉的微波辅助光催化氧化降解研究.环境保护科学,2007,33(2):21-24.
• [9]吴高明等.焦化废水(液)物化处理技术研究[博士论文].武汉:华中科技大学,2006.
• [10]Thomsen A.B.Degradation of quinoline by wet oxidation—kinetic aspects and reaction mechanisms.Watter Res.,1998,32,136-146.
• [11]SFetzner.Bacterial degradation of pyridine,indole,quinoline,and their derivativesunder different redoxconditions.Appl Mi-crobiol Biotechnol,1998,49:237-250.
• [12]申海虹.含氮杂环化合物的缺氧生物降解研究[硕士论文].上海:同济大学,2002.
• [13]DLicht,SSJohansen,EArvin,BKAhring.Transformation ofin-doleand quinoline by Desulfobacterium indolicum(DSM3383).Appl Microbiol Biotechnol,1997,47:167-172.
• [14]崔明超,李丽,陈繁忠.喹啉及其衍生物微生物降解研究进展.上海环境科学,2003,22(1):52-56.
• [15]WangJianlong,QuanXiangchun,HanLiping,QianYi,Werner-Hegemann.Microbial degradation of quinoline by immobilizedcells of Burkhol deriapickettii.Water Research,2002,36:2288-2296.
• [16]何苗,张晓健,等.杂环化合物及多环芳烃厌氧酸化降解性能的研究.中国给水排水,1997,13(3):13-16.
• [17]Johansen S S,Licht D,Arvin E,et al.Metabolic pathways ofquinoline,indole and their methylated analogs by Desulfobac-terium indolicum(DSM 3383).Appl.Microbiol.Biotechnol,1997,47:292-300.
• [18]Liu Shiumei,Jones W J,Rogers J E.Biotransformation ofquinoline and methylquinolines in an-oxic freshwater sedi-ment.Biodegradation,1994,5(2):113-121.
• [19]Licht D,Johansen S S,Arvin E,et al.Transformation of in-dole and quinoline by Desulfobacterium indolicum(DSM3383).Appl.Microbiol.Biotechnol,1997,47:167-172.
• [20]李咏梅.焦化废水生物处理工艺研究[博士论文].上海:同济大学,1999.
• [21]李咏梅,孙丽娟,黄明祝,等.同分异构体喹啉和异喹啉的缺氧降解性能比较.环境污染与防治,2005,27(6):420-423.
• [22]全向春,王建龙,韩力平,等.喹啉与葡萄糖共基质条件下生物降解的动力学分析.环境科学学报,2001,21(4):416-419.
• [23]刘佐才,全向春,韩利平,等.喹啉的生物降解动力学.物理化学学报,2000,26(7):663-666.
• [24]O’Loughlin E.J.,KehrlneyerS.R.,GeraldK.S.Isolation,Characterization,and Substrate utilization of a quinoline一degrading baeterium.Iniemat.Biodeterioration Biodegr.,1996,107-118.
• [25]雷晓玲等.焦化废水中有机物的生物处理特性及处理工艺改进对策.环境科学学报,1995,15(4):385-391.