垃圾渗滤液生物处理过程的物理化学现象与研究
摘要
垃圾渗滤液属于高浓度有机废水,生物处理技术由于运行费用低,是渗滤液处理的主要技术手段。
垃圾渗滤液的特点是COD_(Cr)浓度高,达数千至数万mg/L;氨氮浓度数百至数千mg/L。BOD_5/COD_(Cr)数值低,可生物降解性差;渗滤液中含有70多种有机物和各种重金属元素,直接对渗滤液进行厌氧或好氧处理较难达到排放标准。
本论文总结了国内外有关渗滤液生物处理技术的研究成果及经验教训,运用国外最新的厌氧和好氧处理技术理论研究成果,仔细分析了渗滤液的成分特点以及已建工程失败的原因,提出了“营养调节→升流式厌氧污泥床→吹脱→序批式活性污泥反应器”的工艺处理路线,进行了理论计算和实验验证。摒弃了传统的以水力停留时间为设计依据的厌氧反应器的设计及计算方法,提出了以小试数据和污泥龄为基础的设计计算方法,提高了工程设计的可靠性。
本研究内容包括以下几个方面:垃圾渗滤液各种处理工艺的应用情况及分析;对重庆市生活垃圾填埋场渗滤液制定出处理工艺,并进行实验验证;对存在的各种影响因素进行分析;制定拟定工艺的设计计算方法,并求解出相关的动力学参数。
通过理论分析与实验验证,得出以下几点结论:①渗滤液属于难降解高浓度有机废水,不经任何预处理直接采用生物法处理,很难达到一般生物处理工艺的去除效率。②升流式厌氧污泥床处理工艺可以非常有效地去除经过营养成分调整的垃圾渗滤液。污泥龄越长,去除率越高。③氨吹脱作为渗滤液好氧处理的预处理对好氧处理效率的提高至关重要。④采用“营养调节→升流式厌氧污泥床→吹脱→序批式活性污泥反应器”联合处理工艺可以非常有效地去除垃圾渗滤液中的污染物。就本研究中的水质而言,当污泥龄足够长时,出水的COD_(Cr)和氨氮均达到一级排放标准的要求。
Leachate is a kind of sewage containing high concentration organic compounds. Of all possible techniques biological treatment technique is the most prevalent one due to its low cost in operation.
Leachate is typical of high CODcr , high ammonia, and low ratio of BODs/CODcr. In addition, it may contain more than seventies organic materials and heavy metals. It has been shown that leachate cannot be treated to the discharging standard by only biological method without any other assistant treatments.
Based on existing researches and on the drawback of updated anaerobic and aerobic methods , a new treatment process, "nutrient adjustment→UASB→ blow out→ SBR", is put forward in this thesis and verified by laboratory test and theoretic analysis. The conventional design method depending on HRT is replaced by a new method depending on sludge age and data from laboratory experiments. This method improves the reliability of project design.
The paper involves the following topics:the current state of leachate treatment technology; designing and verifying the treatment process of Chongqing leachate; major factors which influence leachate treatment results; establishing calculation protocol and working out related dynamic parameters.
The following results have been obtained. (1) Leachate would not meet the standard of discharge if only through biological process. (2)UASB method is capable to treat the nutrient-adjusted leachate effectively, and the longer the sludge aging, the better the elimination efficiency. (3)Ammonia blow-out is a critical measure for the efficiency of SBR treatment. 甌he process, nutrient adjustment→ UASB→ blow out →SBR, can remove pollutants in leachate effectively if the sludge age is long enough and the discharge can meet the class I standard of integrated wastewater discharge standard.
垃圾渗滤液的特点是COD_(Cr)浓度高,达数千至数万mg/L;氨氮浓度数百至数千mg/L。BOD_5/COD_(Cr)数值低,可生物降解性差;渗滤液中含有70多种有机物和各种重金属元素,直接对渗滤液进行厌氧或好氧处理较难达到排放标准。
本论文总结了国内外有关渗滤液生物处理技术的研究成果及经验教训,运用国外最新的厌氧和好氧处理技术理论研究成果,仔细分析了渗滤液的成分特点以及已建工程失败的原因,提出了“营养调节→升流式厌氧污泥床→吹脱→序批式活性污泥反应器”的工艺处理路线,进行了理论计算和实验验证。摒弃了传统的以水力停留时间为设计依据的厌氧反应器的设计及计算方法,提出了以小试数据和污泥龄为基础的设计计算方法,提高了工程设计的可靠性。
本研究内容包括以下几个方面:垃圾渗滤液各种处理工艺的应用情况及分析;对重庆市生活垃圾填埋场渗滤液制定出处理工艺,并进行实验验证;对存在的各种影响因素进行分析;制定拟定工艺的设计计算方法,并求解出相关的动力学参数。
通过理论分析与实验验证,得出以下几点结论:①渗滤液属于难降解高浓度有机废水,不经任何预处理直接采用生物法处理,很难达到一般生物处理工艺的去除效率。②升流式厌氧污泥床处理工艺可以非常有效地去除经过营养成分调整的垃圾渗滤液。污泥龄越长,去除率越高。③氨吹脱作为渗滤液好氧处理的预处理对好氧处理效率的提高至关重要。④采用“营养调节→升流式厌氧污泥床→吹脱→序批式活性污泥反应器”联合处理工艺可以非常有效地去除垃圾渗滤液中的污染物。就本研究中的水质而言,当污泥龄足够长时,出水的COD_(Cr)和氨氮均达到一级排放标准的要求。
Leachate is a kind of sewage containing high concentration organic compounds. Of all possible techniques biological treatment technique is the most prevalent one due to its low cost in operation.
Leachate is typical of high CODcr , high ammonia, and low ratio of BODs/CODcr. In addition, it may contain more than seventies organic materials and heavy metals. It has been shown that leachate cannot be treated to the discharging standard by only biological method without any other assistant treatments.
Based on existing researches and on the drawback of updated anaerobic and aerobic methods , a new treatment process, "nutrient adjustment→UASB→ blow out→ SBR", is put forward in this thesis and verified by laboratory test and theoretic analysis. The conventional design method depending on HRT is replaced by a new method depending on sludge age and data from laboratory experiments. This method improves the reliability of project design.
The paper involves the following topics:the current state of leachate treatment technology; designing and verifying the treatment process of Chongqing leachate; major factors which influence leachate treatment results; establishing calculation protocol and working out related dynamic parameters.
The following results have been obtained. (1) Leachate would not meet the standard of discharge if only through biological process. (2)UASB method is capable to treat the nutrient-adjusted leachate effectively, and the longer the sludge aging, the better the elimination efficiency. (3)Ammonia blow-out is a critical measure for the efficiency of SBR treatment. 甌he process, nutrient adjustment→ UASB→ blow out →SBR, can remove pollutants in leachate effectively if the sludge age is long enough and the discharge can meet the class I standard of integrated wastewater discharge standard.
引文
[1] 李东,王里奥.城市生活垃圾收运系统设计中垃圾产量的计算及预测.环境卫生工程.1999(4):138~140.
[2] 李东,顾恒岳.重庆市主城区生活垃圾现状调查与分析[J].重庆环境科学.2001,23(130):67~69.
[3] 徐壮.我国城市垃圾性质及污染状况的综合分析.环境科学,1987,8(5):80~84.
[4] 张东翔,李尔.国内外城市垃圾处理方法对重庆市的借鉴.重庆大学学报[J].2000,23(4):53~57
[5] Theison G H, Vigil S A Integrated solid waste management, engineering principles and management issues. New York: McGraw-Jill. 1993.: 381~417.
[6] 陈世和.城市生活垃圾堆肥化处理.环境污染与防治,1985,6(4):29~34.
[7] 庄维健.城市生活垃圾综合处理新工艺.苏州市市政工程设计院,2000.
[8] Sletten R. S. et al. Physical-Chemical treatment of landfill leachate for metals removal. Water Res., 1995, 29(10): 2376~2386.
[9] Amokrane A. et al. Landfill leachates pretreatment by coagulation-flocculation. Water Res. 1997, 31(11): 2775~2782.
[10] Imai A et al. Biodegradation and adsorption in refractory leachate treatment by the biological activated carbon fluidized bed process. Water Res. 1995, 29(2): 687~694.
[11] 周北海、王琪、董路.垃圾填埋场构造对渗滤液成分的影响研究[J],环境科学研究,2000,13(3):6~8.
[12] 刘疆鹰,徐迪民等.大型垃圾填埋场渗滤液COD的衰减规律[J].同济大学学报.2000,28(3):328~332.
[13] 杨霞,杨朝晖.城市生活垃圾填埋场渗滤液处理工艺的研究[J].环境工程.2000,18(5):12~14.
[14] 汪彗贞,沈家杰.英国垃圾填埋场渗沥水处理及其沼气利用简介.给水排水.1994,20(7):23~25.
[15] 张彤,赵庆祥,朱怀兰.城市垃圾渗滤液及其生物处理对策.城市环境与城市生态.1994,2(4):42~48.
[16] 胡慧青,周启星.天子岭垃圾填埋场渗滤液的治理及其工艺改进.污染防治技术.1998,11(1):62~64.
[17] 申秀英,许晓路,蒋锦青.垃圾填埋渗沥水的活性污泥法处理.中国给水排水.1995,11(3):37~40.
[18] 徐迪民等.低氧-好氧两段活性污泥法处理垃圾填埋场渗滤水的研究.中国环境科学.1989,9(4):311~315.
[19] 陶涛.废水稳定塘在垃圾填埋场渗滤液处理中的应用.环境卫生工程.1998,6(3):115~117.
[20] Bae J H, et al. Effect of leachate recycle and anaerobic digester sludge recycle on the methane production from solid waste[J]. Water Science & Technology, 1998, 38(2): 159~168.
[21] Moon Sung Sung, Performance improvement of an unstable anaerobic leachate treatment system in an industrial waste landfill.Water.Sci.Tech.1997, 36(12): 333~340.
[22] H,Siegrist,etal.Nitrogen loss a nitrifying rotating rich leachate without organic carbon.Wat.Sci.Tech.1998, 37(4): 589~591.
[23] 于罗春、刘疆鹰等.城市垃圾填埋场渗滤液特性及其处理[J].污染防治技术.1998,11(2):88~90.
[24] R.Ialoum etal.,Anaerobic Pretreatment improves single sequencing batch reactor treatment of landfill leachates. Wat. Sci.Tech. 1997, 35(1):207~214.
[25] 邹莲花.城市生活垃圾填埋场渗滤液处理的实验研究.给水排水.1996,22(5):13~14.
[26] 王琳.垃圾渗滤液的处理方法.城市环境与城市生态.1998,11(1):25~28.
[27] 王宝贞.A(缺氧活性污泥)/B(A/O淹没式生物膜)复合系统处理垃圾填埋场渗滤液.给水排水.1996,22(5):15~18.
[28] 张望年,王国生.城市垃圾卫生填埋场浸出液的处理.重庆环境科学.1994,17(2):44~47.
[29] 王罗春.城市垃圾填埋场渗滤液特性及其处理.污染防治技术.1998,11(2):88~90.
[30] Soom.Kim etal., Landfill leachate treatment by a photoassisted fenton reaction. Wat.Sci.Tech. 1997, 35(4):239~248.
[31] G.Baum garter and C.F.Seyfried, Experiences and new developments in biological pretreatment and Physical Posttreatment of landfill leachate. Wat.Sci.Tech.1996, 34(7~8): 445~453.
[32] 郑曼英,黎丽桃.垃圾渗滤液中有机污染物初探[J].重庆环境科学.1996,18(4):41~42.
[33] Cecilia O man et al. Identification of organic compounds in municipal landfill leachate. Environmental Pollution. 1993, 80: 265~271.
[34] Chian E. S. K, et al. Characterzsation of soluble organic matter in leachate Environ. Sci. and Technol. 1997, 11(2): 158~163
[35] 张国政.垃圾渗滤液的处理.环境卫生工程,1997,(4):18~20.
[36] 沈耀良 王宝贞.垃圾填埋场渗滤液处理特性的分析[J],苏州环境科学.1999,2:5~7.
[37] James O. John G et. al. Landfill management with moisture control. Journal of the environmental engineering division. 1997, 105(EE2): 337~355.
[38] Stegman R, Ehrig H J. Leachate production and quality- results of landfill process and operation. Sardinia '89-2 International landfill Symposium, 1989, Ⅹ Ⅹ Ⅶ: 1~16.
[39] Chian E S K. et al. Sanitary landfill leachates and their treatment. JEE, 1976, 102EES(2); 411~431.
[40] Scott M P. Leachate treatment options. Solid waste manage, 1981, 10(1): 13~24.
[41] 刘疆鹰,徐迪民等.大型垃圾填埋场渗滤水氨氮衰减规律[J].环境科学学报.2001,21(3):323~327.
[42] 周北海,松藤康司.中国垃圾填埋场的问题与改善方法.环境科学研究.1998,11(3):22~29.
[43] 范家明,周少奇.广州大田山垃圾填埋场渗滤液污染现状调查[J].环境卫生工程.2001,9(4):160~162.
[44] 陈长太,曾扬.城市垃圾填埋场渗滤液水质特性及其处理[J].环境保护.2001,9:19~21.
[45] 沈耀良,赵丹等.厌氧—好氧法处理渗滤液与城市污水混合废水的可行性[J].污染防治技术.2000,13(2):63~67.
[46] 姜必亮,林里等.N/P比调节对小球藻净化渗滤液效能的影响.中山大学学报.2001,40(2):101~103.
[47] 冯明谦 李强.城市生活垃圾卫生填埋场渗滤液水量水质的确定[J],四川环境.2001,20(2).52~54.
[48] 卢成洪,徐迪民.垃圾填埋场渗滤液水质影响因素的研究[J].给水排水.1999,25(2):20~23.
[49] 王琪,董路等.垃圾填埋场渗滤液回流技术研究[J].环境科学研究.2000,13(3):1~5.
[50] 胡勤海,俞凯觎.吹脱-SBR-吸附混凝法处理垃圾填埋场渗滤液[J].环境污染与防治.2000,22(3):21~23.
[51] 陈玉成,陈小龙.城市生活垃圾渗滤液土地处理模拟研究[J].城市环境与生态.2001,14(2):19~21.
[52] 陈石,王克虹等.城市生活垃圾填埋场渗滤液处理中试研究[J].给水排水.2000,26(10):15~18.
[53] 王小虎,胡春莲等.SBR法处理垃圾渗滤液试验研究.环境卫生工程.2000,8(4):147~150
[54] 孙召强,杨宏毅等.CASS工艺处理垃圾渗滤液工程设计实例[J].给水排水.2002,28(1):20~21.
[55] 赵宗升,刘鸿亮等.A~2O与混凝沉淀法处理垃圾渗滤液研究.中国给水排水.2001,17(11):13~16.
[56] 金永麒.阿苏卫垃圾填埋场渗滤液处理中活性污泥的驯化与调试.环境科学与技术.
2001,2:35~36.
[57] 何若,沈东升,方程冉.生物反应器填埋场系统的特性研究.环境科学学报.2001,21(6):763~767.
[58] 吴学龙,蒋建国等.粪渣污泥泥上清液和填埋场渗滤液混合处理工程分析[J].新疆环境保护.2000,22(2):78~84.
[59] Kettunen R H. Performance of an on-site UASB reactor treating leachate at low temperature[J]. Water Res,1998, 32(3): 537~546.
[60] Yang, I, et al. The Response of Methane fermentation to Cyanide and Chloroform. Wat. Sci. techn. 1981, 13(2), 977~989.
[61] Mogens Henze Poul Harremoes et al. Wastewater Treatment Biological and Chemical Processes. 1999. 12.
[62] Quarmly J.An examination of the structure of UASB granules[J]. Water Res,1995, 29(11):2449~2454.
[63] Henze, M. Characterization of wastewater for Modelling of Activated Sludge Processes. Wat.Sci.Tech., 1992, 25, No. 6. nthoniscn, A.C. et al. Limitation of Nitrification by Ammonia and Nitrous Acid. J. WHCF.1976, 48,835~852.
[64] ToiTilinson, TG., Boon, A.G. and G.N.A. Trohnan. Inhibition of Nitrification in the Activated Sludge Process of Sewage Disposal. J.appl.bact., 1966, 29, 266~291.
[65] StenseI, H.D., Loehr, R.C. and A.W LawrenceBiological kinetics of Suspended-Growth Denitrification. J.WPCF.1973, 45, 249~261.
[2] 李东,顾恒岳.重庆市主城区生活垃圾现状调查与分析[J].重庆环境科学.2001,23(130):67~69.
[3] 徐壮.我国城市垃圾性质及污染状况的综合分析.环境科学,1987,8(5):80~84.
[4] 张东翔,李尔.国内外城市垃圾处理方法对重庆市的借鉴.重庆大学学报[J].2000,23(4):53~57
[5] Theison G H, Vigil S A Integrated solid waste management, engineering principles and management issues. New York: McGraw-Jill. 1993.: 381~417.
[6] 陈世和.城市生活垃圾堆肥化处理.环境污染与防治,1985,6(4):29~34.
[7] 庄维健.城市生活垃圾综合处理新工艺.苏州市市政工程设计院,2000.
[8] Sletten R. S. et al. Physical-Chemical treatment of landfill leachate for metals removal. Water Res., 1995, 29(10): 2376~2386.
[9] Amokrane A. et al. Landfill leachates pretreatment by coagulation-flocculation. Water Res. 1997, 31(11): 2775~2782.
[10] Imai A et al. Biodegradation and adsorption in refractory leachate treatment by the biological activated carbon fluidized bed process. Water Res. 1995, 29(2): 687~694.
[11] 周北海、王琪、董路.垃圾填埋场构造对渗滤液成分的影响研究[J],环境科学研究,2000,13(3):6~8.
[12] 刘疆鹰,徐迪民等.大型垃圾填埋场渗滤液COD的衰减规律[J].同济大学学报.2000,28(3):328~332.
[13] 杨霞,杨朝晖.城市生活垃圾填埋场渗滤液处理工艺的研究[J].环境工程.2000,18(5):12~14.
[14] 汪彗贞,沈家杰.英国垃圾填埋场渗沥水处理及其沼气利用简介.给水排水.1994,20(7):23~25.
[15] 张彤,赵庆祥,朱怀兰.城市垃圾渗滤液及其生物处理对策.城市环境与城市生态.1994,2(4):42~48.
[16] 胡慧青,周启星.天子岭垃圾填埋场渗滤液的治理及其工艺改进.污染防治技术.1998,11(1):62~64.
[17] 申秀英,许晓路,蒋锦青.垃圾填埋渗沥水的活性污泥法处理.中国给水排水.1995,11(3):37~40.
[18] 徐迪民等.低氧-好氧两段活性污泥法处理垃圾填埋场渗滤水的研究.中国环境科学.1989,9(4):311~315.
[19] 陶涛.废水稳定塘在垃圾填埋场渗滤液处理中的应用.环境卫生工程.1998,6(3):115~117.
[20] Bae J H, et al. Effect of leachate recycle and anaerobic digester sludge recycle on the methane production from solid waste[J]. Water Science & Technology, 1998, 38(2): 159~168.
[21] Moon Sung Sung, Performance improvement of an unstable anaerobic leachate treatment system in an industrial waste landfill.Water.Sci.Tech.1997, 36(12): 333~340.
[22] H,Siegrist,etal.Nitrogen loss a nitrifying rotating rich leachate without organic carbon.Wat.Sci.Tech.1998, 37(4): 589~591.
[23] 于罗春、刘疆鹰等.城市垃圾填埋场渗滤液特性及其处理[J].污染防治技术.1998,11(2):88~90.
[24] R.Ialoum etal.,Anaerobic Pretreatment improves single sequencing batch reactor treatment of landfill leachates. Wat. Sci.Tech. 1997, 35(1):207~214.
[25] 邹莲花.城市生活垃圾填埋场渗滤液处理的实验研究.给水排水.1996,22(5):13~14.
[26] 王琳.垃圾渗滤液的处理方法.城市环境与城市生态.1998,11(1):25~28.
[27] 王宝贞.A(缺氧活性污泥)/B(A/O淹没式生物膜)复合系统处理垃圾填埋场渗滤液.给水排水.1996,22(5):15~18.
[28] 张望年,王国生.城市垃圾卫生填埋场浸出液的处理.重庆环境科学.1994,17(2):44~47.
[29] 王罗春.城市垃圾填埋场渗滤液特性及其处理.污染防治技术.1998,11(2):88~90.
[30] Soom.Kim etal., Landfill leachate treatment by a photoassisted fenton reaction. Wat.Sci.Tech. 1997, 35(4):239~248.
[31] G.Baum garter and C.F.Seyfried, Experiences and new developments in biological pretreatment and Physical Posttreatment of landfill leachate. Wat.Sci.Tech.1996, 34(7~8): 445~453.
[32] 郑曼英,黎丽桃.垃圾渗滤液中有机污染物初探[J].重庆环境科学.1996,18(4):41~42.
[33] Cecilia O man et al. Identification of organic compounds in municipal landfill leachate. Environmental Pollution. 1993, 80: 265~271.
[34] Chian E. S. K, et al. Characterzsation of soluble organic matter in leachate Environ. Sci. and Technol. 1997, 11(2): 158~163
[35] 张国政.垃圾渗滤液的处理.环境卫生工程,1997,(4):18~20.
[36] 沈耀良 王宝贞.垃圾填埋场渗滤液处理特性的分析[J],苏州环境科学.1999,2:5~7.
[37] James O. John G et. al. Landfill management with moisture control. Journal of the environmental engineering division. 1997, 105(EE2): 337~355.
[38] Stegman R, Ehrig H J. Leachate production and quality- results of landfill process and operation. Sardinia '89-2 International landfill Symposium, 1989, Ⅹ Ⅹ Ⅶ: 1~16.
[39] Chian E S K. et al. Sanitary landfill leachates and their treatment. JEE, 1976, 102EES(2); 411~431.
[40] Scott M P. Leachate treatment options. Solid waste manage, 1981, 10(1): 13~24.
[41] 刘疆鹰,徐迪民等.大型垃圾填埋场渗滤水氨氮衰减规律[J].环境科学学报.2001,21(3):323~327.
[42] 周北海,松藤康司.中国垃圾填埋场的问题与改善方法.环境科学研究.1998,11(3):22~29.
[43] 范家明,周少奇.广州大田山垃圾填埋场渗滤液污染现状调查[J].环境卫生工程.2001,9(4):160~162.
[44] 陈长太,曾扬.城市垃圾填埋场渗滤液水质特性及其处理[J].环境保护.2001,9:19~21.
[45] 沈耀良,赵丹等.厌氧—好氧法处理渗滤液与城市污水混合废水的可行性[J].污染防治技术.2000,13(2):63~67.
[46] 姜必亮,林里等.N/P比调节对小球藻净化渗滤液效能的影响.中山大学学报.2001,40(2):101~103.
[47] 冯明谦 李强.城市生活垃圾卫生填埋场渗滤液水量水质的确定[J],四川环境.2001,20(2).52~54.
[48] 卢成洪,徐迪民.垃圾填埋场渗滤液水质影响因素的研究[J].给水排水.1999,25(2):20~23.
[49] 王琪,董路等.垃圾填埋场渗滤液回流技术研究[J].环境科学研究.2000,13(3):1~5.
[50] 胡勤海,俞凯觎.吹脱-SBR-吸附混凝法处理垃圾填埋场渗滤液[J].环境污染与防治.2000,22(3):21~23.
[51] 陈玉成,陈小龙.城市生活垃圾渗滤液土地处理模拟研究[J].城市环境与生态.2001,14(2):19~21.
[52] 陈石,王克虹等.城市生活垃圾填埋场渗滤液处理中试研究[J].给水排水.2000,26(10):15~18.
[53] 王小虎,胡春莲等.SBR法处理垃圾渗滤液试验研究.环境卫生工程.2000,8(4):147~150
[54] 孙召强,杨宏毅等.CASS工艺处理垃圾渗滤液工程设计实例[J].给水排水.2002,28(1):20~21.
[55] 赵宗升,刘鸿亮等.A~2O与混凝沉淀法处理垃圾渗滤液研究.中国给水排水.2001,17(11):13~16.
[56] 金永麒.阿苏卫垃圾填埋场渗滤液处理中活性污泥的驯化与调试.环境科学与技术.
2001,2:35~36.
[57] 何若,沈东升,方程冉.生物反应器填埋场系统的特性研究.环境科学学报.2001,21(6):763~767.
[58] 吴学龙,蒋建国等.粪渣污泥泥上清液和填埋场渗滤液混合处理工程分析[J].新疆环境保护.2000,22(2):78~84.
[59] Kettunen R H. Performance of an on-site UASB reactor treating leachate at low temperature[J]. Water Res,1998, 32(3): 537~546.
[60] Yang, I, et al. The Response of Methane fermentation to Cyanide and Chloroform. Wat. Sci. techn. 1981, 13(2), 977~989.
[61] Mogens Henze Poul Harremoes et al. Wastewater Treatment Biological and Chemical Processes. 1999. 12.
[62] Quarmly J.An examination of the structure of UASB granules[J]. Water Res,1995, 29(11):2449~2454.
[63] Henze, M. Characterization of wastewater for Modelling of Activated Sludge Processes. Wat.Sci.Tech., 1992, 25, No. 6. nthoniscn, A.C. et al. Limitation of Nitrification by Ammonia and Nitrous Acid. J. WHCF.1976, 48,835~852.
[64] ToiTilinson, TG., Boon, A.G. and G.N.A. Trohnan. Inhibition of Nitrification in the Activated Sludge Process of Sewage Disposal. J.appl.bact., 1966, 29, 266~291.
[65] StenseI, H.D., Loehr, R.C. and A.W LawrenceBiological kinetics of Suspended-Growth Denitrification. J.WPCF.1973, 45, 249~261.