解偶联污泥减量技术的研究进展

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英文篇名：Research Progress in Metabolic Uncoupler in Activated Sludge Reduction Technologies 作者：刘宇辉 ; 解庆林 英文作者：Liu Yuhui;Xie Qinglin;Guilin University of Technology; 关键词：解偶联代谢 ; 化学解偶联剂 ; 高S_0/X_0 ; 高浓度溶解氧 ; 污泥减量 英文关键词：uncoupling metabolism;;chemical uncoupling agents;;high S_0/X_0;;high concentration;;dissolved oxygen sludge reduction 中文刊名：ZSJS 英文刊名：Water Purification Technology 机构：桂林理工大学; 出版日期：2016-05-17 16:22 出版单位：净水技术 年：2016 期：v.35;No.167 基金：国家自然科学基金项目(42862003);; 广西科技攻关项目(11107003-4) 语种：中文; 页：ZSJS2016S1018 页数：5 CN：S1 ISSN：31-1513/TQ 分类号：72-76

摘要

该文从现阶段国内外污泥处理与处置在环境和经济方面存在的问题出发,阐明了研究污泥减量技术的紧迫性。介绍了解偶联减量技术的研究现状,影响因素,优缺点和未来发展方向。
        Excess activated sludge produced in the biological treatment process of wastewater required costly disposal and would induce serious environmental pollution if the treatment was not suitable.According to production principle of excess activated sludge in biological treatment process,relevant technologies of sludge reduction were reviewed and influence factors,advantage and disadvantage were introduced.

引文

[1]王大伟,韩爱荣,苏朋,等.污泥减量化研究进展[J].广州化工,2010,38(5):65-67.
    [2]中国水网/中国固废网研究院.中国污泥处理处置市场分析报告[R].2013.
    [3]中华人民共和国住房和城乡建设部.中国城镇排水与污水处理状况公报(2006-2010年)[R].2012.
    [4]中华人民共和国环境保护部.全国环境统计公报[R].中国环保产业.2008.
    [5]沈萍.微生物学[M].中国:高等教育出版社,2006:101-102.
    [6]李鹤超,严红,肖本益.化学解偶联剂污泥减量技术的研究进展[J].工业水处理,2015,35(1):9-13.
    [7]胡海兰,方芳,冯骞,等.代谢解偶联技术在污泥减量化中的应用研究进展[J].净水技术,2014,33(2):36-41.
    [8]段伟伟,李绍秀,李冬梅.污泥减量技术的研究进展[J].能源与环境,2011,30(5):74-77.
    [9]李立欣,赵乾身,马放,等.废水处理中污泥减量技术现状及发展趋势[J].水处理技术,2015,41(1):1-4.
    [10]高丽英,汤兵.解偶联代谢污泥减量机理及其新工艺[J].工业用水与废水,2012,43(1):6-10.
    [11]Pescher Y,Talbot R E,Louvel L O.Uncoupling Agents[P].US7780859B2,2010-8-24.
    [12]寇青青,朱世云,覃宇,等.污泥减量化技术研究进展[J].净水技术,2012,31(6):4-8,13.
    [13]Arag6na C,Quirogab J M,Coello M D.Comparison of four chemical uncouplers for excess sludge reduction[J].Environmental Technology,2009,30(7):707-714.
    [14]王阿林.解偶联剂(TCS)对污泥减量化及出水水质的影响研究[D].西安:西北大学,2013.
    [15]Rho S,Nam G N,Shin J Y.Effect of 3',3',4',5-tetrachlorosalicylanilide on reduction of excess sludge and nitrogen removal in biological wastewater treatment process[J].Journal of Microbiology and Biotechnology,2007,17(7):1183-1190.
    [16]Zebo Liu.The potential of PNP.TCS and THPS as uncouplers to reduce waste activated sludge(WAS)[D].Australia:RMIT University,2011.
    [17]Guo xuesong,Yang Jianming,Liang Yuan.Evaluation of sludge reduction by an environmentally friendly chemical uncoupler in a pilot-scale anaerobic/anoxic/oxic process[J].Bioprocess and Biosystems Engineering,2013,37(3):553-560.
    [18]顿咪娜,裴海燕,胡文容.氨基苯酚和四氯水杨酰苯胺对活性污泥产率的影响[J].环境科学,2009,30(5):1481-1486.
    [19]张璐.袁林江.呼吸解偶联剂对活性污泥系统的污泥产量以及污水净化效果的影响研究[J].科技信息,2009,26(27):292-293.
    [20]王涛,叶成全,李伟民,等.化学解偶联剂对A~2/O工艺污泥产率的影响[J].中国给水排水,2011,27(3):102-105.
    [21]Russell J B.Cook G M.Energetics of bacterial grovrth:balance of anabolic and catabolic reaction[J].Microbiological Reviews,1995,59(1):48-60.
    [22]Chudoba P,Capdeville B,Chudoba J.Explanation of biological meaning of the S_0/X_0 ratio in batch cultivation[J].Water Science and Technology,1992,26(3-4):743-751.
    [23]鲁智礼,庞朝辉,王海燕,等.污泥减量化技术研究进展[J].化工环保,2011,31(6):506-510.
    [24]赵庆良,赵赫,林佶侃,等.剩余污泥减量化技术研究进展与发展趋势[J].给水排水,2005,31(11):106-111.
    [25]Abbassi B,Dullstein S,Capdeville B.Minimization of excess sludge production by increase of oxygen concentration in activated sludge floes:experimental and theoretical approach[J].Water Research,2000,34(1):139-146.
    [26]Zhang yong,Zhang Xianqiu,Wang Zhiliang.Studies on Effect and Corresponding Technical Characteristics of Excess Sludge Reduction in Pressurized Biological Contact Oxidation Process[C].The4th Inter-national Conference on Bioinformatics and Biomedical Engineering.Chengdu:Institute of Electrical and Electronic Enginaeers,2010:1-3.