等离子体与生物过滤联合净化有机废气新技术
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摘要
针对目前有机废气的危害和治理现状,在单一等离子体技术和生物过滤技术的基础上,阐明了等离子体-生物过滤联合技术的耦合机理,提炼出塔式和滤池式两类等离子体-生物过滤组合系统的反应器结构和类型。对污染物浓度、停留时间和运行时间等影响参数进行了讨论分析,并为其在未来的工业化应用做出了展望。
引文
[1]王宝庆.生物过滤法净化含苯系物废气的研究.西安建筑科技大学,2004
[2]Elsom D.Smog alert:managing urban air quality.Air Pollution,1996
[3]席劲瑛.生物过滤塔处理挥发性有机物气体的研究.清华大学,2005.
[4]Urashima K.,Chang J.S.Removal of Volatile Organic Compounds from Air Streams and Industrial Flue Gases by Non-Thermal Plasma Technology.IEEE Transactions on Dielectrics&Electrical Insulation,2000,7(5):602-614
[5]Chen H.L,Lee H.M.,Chen S.H.,et al.Removal of Volatile Organic Compounds by Single-Stage and TwoStage Plasma Catalysis Systems:A Review of the Performance Enhancement Mechanisms,Current Status,and Suitable Applications.Environmental Science&Technology,2009,43(7):2216-2227
[6]Kim H.H.,Ogata A.,Futamura S.Effect of Different Catalysts on the Decomposition of VOCs Using Flow-Type Plasma-Driven Catalysis.IEEE Transactions on Plasma Science,2006,34(3):984-995
[7]吴丹,李法云,陈晓阳,等.生物过滤法处理挥发性有机化合物研究进展.科技导报.2009(16):99-103.
[8]马超,梁杰,胡洪营,等.紫外-生物过滤联合工艺处理VOCs的研究.环境科学与技术.2010,33(6).
[9]区瑞锟,陈砺,严宗诚,等.低温等离子体-催化协同降解挥发性有机废气.环境科学与技术.2011(01):79-84.RuikunQu,Li Chen,Zongcheng Yan,等.2011(01):79-84(in Chinese)
[10]陈江,刘建阳,章旭明.非热等离子体净化挥发性有机废气研究进展.科技广场.2012(02):94-98.Jiang Chen,Jianyang Liu,Xuming Zhang.2012(02):94-98(in Chinese)
[11]Berg A.S.Toluene removal from waste air by combined biological and non-thermal plasma techniques.Zurich,1999
[12]郭玉芳,叶代启,陈克复.挥发性有机化合物(VOCs)的低温等离子体-催化协同净化.工业催化.2005,13(11):1-5.Guo Yu-Fang,Y.E.Dai-Qi,Chen Ke-Fu.Catalysis-assisted non-thermal plasma technology for decomposition of volatile organic compounds(VOCs).INDUSTRIAL CATALYSIS.2005,13(11):1-5(in Chinese)
[13]Detchanamurthy S.,Gostomski P.A.Biofiltration for treating VOCs:an overview.Reviews in Environmental Science&Bio/technology,2012,11(3):231-241
[14]於建明.真空紫外—生物协同净化二氯甲烷废气的机理研究.浙江工业大学,2012.
[15]席劲瑛,胡洪营.生物过滤法处理挥发性有机物气体研究进展.环境科学与技术.2006(10):106-108.Jingying Xi,Hongying Hu.2006(10):106-108(in Chinese)
[16]Miller M.J.,Allen D.G.Transport of hydrophobic pollutants through biofilms in biofilters.Chemical Engineering Science,2004,59(17):3515-3525
[17]Hakjoon K.,Han B.W.,Hong W.S.,et al.A New Combination System Using Biotrickling Filtration and Nonthermal Plasma for the Treatment of Volatile Organic Compounds.Environmental Engineering Science,2009,26(8):1289-1297
[18]Yee D.C.Bioremediation of chlorinated organics using Streptomyces lignin peroxidase,Pseudomonas strains,and pulsed-electric discharge.1997.
[19]冯肇霖.等离子体和生物法一体化的废气净化装置.
[20]魏在山.一种有毒有害废气的低温等离子体-生物法组合工艺处理方法.
[21]陆彬.生物滤池与低温等离子体曝气装置的集成结构及集成工艺.
[22]Kim Y.J.,Han B.W.,Kim H.J.PLASMA AND BIO FILTER HYBRID GAS CLEANING SYSTEM.
[23]陆彬.生物过滤与低温等离子体一体化的废气处理设备2015.
[24]吴艳.介质阻挡放电等离子体增强生物滴滤去除有机废气实验研究.浙江大学,2013.
[25]李华琴.等离子体-生物法处理恶臭气体研究.2012.
[2]Elsom D.Smog alert:managing urban air quality.Air Pollution,1996
[3]席劲瑛.生物过滤塔处理挥发性有机物气体的研究.清华大学,2005.
[4]Urashima K.,Chang J.S.Removal of Volatile Organic Compounds from Air Streams and Industrial Flue Gases by Non-Thermal Plasma Technology.IEEE Transactions on Dielectrics&Electrical Insulation,2000,7(5):602-614
[5]Chen H.L,Lee H.M.,Chen S.H.,et al.Removal of Volatile Organic Compounds by Single-Stage and TwoStage Plasma Catalysis Systems:A Review of the Performance Enhancement Mechanisms,Current Status,and Suitable Applications.Environmental Science&Technology,2009,43(7):2216-2227
[6]Kim H.H.,Ogata A.,Futamura S.Effect of Different Catalysts on the Decomposition of VOCs Using Flow-Type Plasma-Driven Catalysis.IEEE Transactions on Plasma Science,2006,34(3):984-995
[7]吴丹,李法云,陈晓阳,等.生物过滤法处理挥发性有机化合物研究进展.科技导报.2009(16):99-103.
[8]马超,梁杰,胡洪营,等.紫外-生物过滤联合工艺处理VOCs的研究.环境科学与技术.2010,33(6).
[9]区瑞锟,陈砺,严宗诚,等.低温等离子体-催化协同降解挥发性有机废气.环境科学与技术.2011(01):79-84.RuikunQu,Li Chen,Zongcheng Yan,等.2011(01):79-84(in Chinese)
[10]陈江,刘建阳,章旭明.非热等离子体净化挥发性有机废气研究进展.科技广场.2012(02):94-98.Jiang Chen,Jianyang Liu,Xuming Zhang.2012(02):94-98(in Chinese)
[11]Berg A.S.Toluene removal from waste air by combined biological and non-thermal plasma techniques.Zurich,1999
[12]郭玉芳,叶代启,陈克复.挥发性有机化合物(VOCs)的低温等离子体-催化协同净化.工业催化.2005,13(11):1-5.Guo Yu-Fang,Y.E.Dai-Qi,Chen Ke-Fu.Catalysis-assisted non-thermal plasma technology for decomposition of volatile organic compounds(VOCs).INDUSTRIAL CATALYSIS.2005,13(11):1-5(in Chinese)
[13]Detchanamurthy S.,Gostomski P.A.Biofiltration for treating VOCs:an overview.Reviews in Environmental Science&Bio/technology,2012,11(3):231-241
[14]於建明.真空紫外—生物协同净化二氯甲烷废气的机理研究.浙江工业大学,2012.
[15]席劲瑛,胡洪营.生物过滤法处理挥发性有机物气体研究进展.环境科学与技术.2006(10):106-108.Jingying Xi,Hongying Hu.2006(10):106-108(in Chinese)
[16]Miller M.J.,Allen D.G.Transport of hydrophobic pollutants through biofilms in biofilters.Chemical Engineering Science,2004,59(17):3515-3525
[17]Hakjoon K.,Han B.W.,Hong W.S.,et al.A New Combination System Using Biotrickling Filtration and Nonthermal Plasma for the Treatment of Volatile Organic Compounds.Environmental Engineering Science,2009,26(8):1289-1297
[18]Yee D.C.Bioremediation of chlorinated organics using Streptomyces lignin peroxidase,Pseudomonas strains,and pulsed-electric discharge.1997.
[19]冯肇霖.等离子体和生物法一体化的废气净化装置.
[20]魏在山.一种有毒有害废气的低温等离子体-生物法组合工艺处理方法.
[21]陆彬.生物滤池与低温等离子体曝气装置的集成结构及集成工艺.
[22]Kim Y.J.,Han B.W.,Kim H.J.PLASMA AND BIO FILTER HYBRID GAS CLEANING SYSTEM.
[23]陆彬.生物过滤与低温等离子体一体化的废气处理设备2015.
[24]吴艳.介质阻挡放电等离子体增强生物滴滤去除有机废气实验研究.浙江大学,2013.
[25]李华琴.等离子体-生物法处理恶臭气体研究.2012.
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