处理玉米酒精废水的生产性启动研究
|
摘要
目前,UASB反应器已广泛应用于高浓度有机废水处理,但在工程应用中,拥有高效颗粒污泥才能显示反应器的处理效率和优越性。现存的众多UASB厌氧反应器存在效率低下的问题,颗粒污泥的培养显得尤为重要。
本论文以新乡某酒精生产企业的废水处理工程为研究对象,对处理玉米酒精废水的厌氧反应器和好氧反应器进行启动调试研究。首先对玉米酒精的生产工艺流程和酒精废水的来源及特点做了简单的介绍,主要研究了外循环UASB反应器的启动影响因素、颗粒污泥培养过程和好氧SBR活性污泥工艺的调试启动影响因素和污泥的驯化培养情况,分析了UASB反应器和SBR工艺的反应机理,探讨了反应器的运行规律和影响因素,为同类废水的处理应用提供了一定的依据和参考,研究结果具有一定的实际工程意义和理论价值。
本论文主要研究有以下几个方面:
1.对外循环UASB反应器处理玉米酒精废水启动时的工艺条件进行了优化,在中温条件下,通过容积负荷的提高和调节进水及外循环的回流最佳配比,研究反应器的最佳启动条件和最佳的运行效果,分析反应器的运行特性及启动的影响因素,结果表明:外循环UASB反应器的颗粒污泥形成更快,处理效果更好。
2.在调试启动过程中,通过对进、出水COD、BOD_5、总氮、碱度、挥发性脂肪酸、产气率等指标的监测,分析其变化规律,确定改良型外循环UASB反应器处理酒精废水的最佳控制运行参数。
3.通过对常规UASB反应器和外循环UASB反应器的对比分析,外循环的UASB反应器无论在启动过程和运行控制条件等方面均表现出优越性。
4.通过对颗粒污泥的形成过程分析,观察颗粒污泥的微生物群落结构。在培养的颗粒污泥表面以产甲烷杆菌和产甲烷球菌为优势菌属,观察到主要为产甲烷球菌和八叠球菌,其中以产甲烷八叠球菌为主。在颗粒污泥内部没有发现丝状菌的存在,产甲烷杆状菌和球菌为优势菌,这保证了对水解中间产物的高效降解。
5.在外循环的作用下,有效地减少了有机负荷和酸性冲击所带来的不利影响,使厌氧系统对不良因素的适应性大为提高,提高了上流速度,不仅均衡了进水负荷的波动,而且保证了产酸菌和产甲烷菌的平衡和产甲烷菌的高活性。
6.对于厌氧反应器结垢问题做了一定的讨论分析,改良型UASB反应器的外循环回配系统在一定程度上减缓了结垢现象的发生。
7.通过对SBR活性污泥工艺启动研究,掌握采用逐步培养法来驯化活性污泥。测定进、出水水质及活性污泥的性能指标,分析好氧活性颗粒污泥的机理和微生物群落结构,掌握活性污泥的培养方法并对其调试启动影响因素做一探讨。对于好氧反应器培养好氧颗粒污泥是未来研究的热点。
At present, the UASB reactor has been widely used in high concentration organic wastewatertreatment, but in engineering applications, with high efficiency particulate sludge in order to show theprocessing efficiency and superiority of the reactor. The existing number of UASB anaerobic reactor thereare inefficiencies in the cultivation of granular sludge is particularly important.
In this paper, the corn alcohol wastewater treatment engineering as the research target at Xinxiang aalcohol production enterprises, alcohol wastewater anaerobic reactor and aerobic reactor production rundebug. First, a simple introduction to the source and characteristics of alcohol wastewater and corn ethanolproduction process, mainly outside the circle of the UASB reactor start-up process, influencing factors, thegranular sludge cultivation process and the aerobic SBR activated sludge process in the cultivation of thestart of the follow-up to the anaerobic reactor wastewater and sludge. Analysis of the reaction mechanismof the UASB reactor and the SBR process, discusses the laws governing the operation of the reactor andinfluencing factors provide a basis and reference for similar wastewater treatment, the findings have certainpractical engineering and theoretical value.
The main research in the following aspects:
(1) The external cycle UASB reactor process conditions were studied in the time of the start of thecorn alcohol wastewater. Volume load increases in the temperature conditions and determine the best ratioof water and outside the circle of reflux, the reactor start-up conditions and the best operating results,analysis of factors affecting the operating characteristics of the reactor and start, provide a reference forsimilar reactor quickly start.
(2) In debugging startup process, through monitoring indicators of the into, the effluent of COD andBOD_5, total nitrogen, alkalinity, volatile fatty acids, to determine the effects and optimal control ofoperating parameters outside the circle of UASB reactor treating the wastewater of alcohol.
(3) Comparative analysis of conventional UASB reactor and outside the circle of the UASB reactor,the UASB reactor of the outer cycle in terms of the start-up process and run the control conditions showedits superiority.
(4) Analysis of the formation of granular sludge, observed of the granular sludge microbial communitystructure. The surface of the granular sludge culture the dominant species of methanogenic bacteria andmethanogenic coccus, observed mainly methanogenic coccus and eight stacked coccus. Did not find thepresence of filamentous bacteria within the granular sludge, methanogenic rod-shaped bacteria and cocciwere the dominant bacteria, which guarantees the efficient degradation of the hydrolysis intermediates.
(5) Due to the role of the outer cycle, effectively reducing the adverse effects of organic loading andacid shock, the anaerobic system much higher adaptability to bad factors, high speed, not only balanced theinfluent load fluctuations,and to ensure the balance of the acidogenic bacteria and methanogenic bacteriaand methanogenic bacteria activity.
(6) To do a certain amount of discussion and analysis of the scaling problem of the anaerobic reactor,outside the circle back to the distribution system to a certain extent slow down the occurrence of scaling.
(7) Start on the SBR activated sludge process, to master the gradually culture acclimated activatedsludge. Determination of the influent and effluent water quality and the performance of activated sludge,analysis of the mechanism of the aerobic activity of granular sludge and microbial community structure. Tomaster of the activated sludge culture methods and discussed the debug start influencing factors. Aerobicreactor culture of aerobic granular sludge is a hot topic for future research.
本论文以新乡某酒精生产企业的废水处理工程为研究对象,对处理玉米酒精废水的厌氧反应器和好氧反应器进行启动调试研究。首先对玉米酒精的生产工艺流程和酒精废水的来源及特点做了简单的介绍,主要研究了外循环UASB反应器的启动影响因素、颗粒污泥培养过程和好氧SBR活性污泥工艺的调试启动影响因素和污泥的驯化培养情况,分析了UASB反应器和SBR工艺的反应机理,探讨了反应器的运行规律和影响因素,为同类废水的处理应用提供了一定的依据和参考,研究结果具有一定的实际工程意义和理论价值。
本论文主要研究有以下几个方面:
1.对外循环UASB反应器处理玉米酒精废水启动时的工艺条件进行了优化,在中温条件下,通过容积负荷的提高和调节进水及外循环的回流最佳配比,研究反应器的最佳启动条件和最佳的运行效果,分析反应器的运行特性及启动的影响因素,结果表明:外循环UASB反应器的颗粒污泥形成更快,处理效果更好。
2.在调试启动过程中,通过对进、出水COD、BOD_5、总氮、碱度、挥发性脂肪酸、产气率等指标的监测,分析其变化规律,确定改良型外循环UASB反应器处理酒精废水的最佳控制运行参数。
3.通过对常规UASB反应器和外循环UASB反应器的对比分析,外循环的UASB反应器无论在启动过程和运行控制条件等方面均表现出优越性。
4.通过对颗粒污泥的形成过程分析,观察颗粒污泥的微生物群落结构。在培养的颗粒污泥表面以产甲烷杆菌和产甲烷球菌为优势菌属,观察到主要为产甲烷球菌和八叠球菌,其中以产甲烷八叠球菌为主。在颗粒污泥内部没有发现丝状菌的存在,产甲烷杆状菌和球菌为优势菌,这保证了对水解中间产物的高效降解。
5.在外循环的作用下,有效地减少了有机负荷和酸性冲击所带来的不利影响,使厌氧系统对不良因素的适应性大为提高,提高了上流速度,不仅均衡了进水负荷的波动,而且保证了产酸菌和产甲烷菌的平衡和产甲烷菌的高活性。
6.对于厌氧反应器结垢问题做了一定的讨论分析,改良型UASB反应器的外循环回配系统在一定程度上减缓了结垢现象的发生。
7.通过对SBR活性污泥工艺启动研究,掌握采用逐步培养法来驯化活性污泥。测定进、出水水质及活性污泥的性能指标,分析好氧活性颗粒污泥的机理和微生物群落结构,掌握活性污泥的培养方法并对其调试启动影响因素做一探讨。对于好氧反应器培养好氧颗粒污泥是未来研究的热点。
At present, the UASB reactor has been widely used in high concentration organic wastewatertreatment, but in engineering applications, with high efficiency particulate sludge in order to show theprocessing efficiency and superiority of the reactor. The existing number of UASB anaerobic reactor thereare inefficiencies in the cultivation of granular sludge is particularly important.
In this paper, the corn alcohol wastewater treatment engineering as the research target at Xinxiang aalcohol production enterprises, alcohol wastewater anaerobic reactor and aerobic reactor production rundebug. First, a simple introduction to the source and characteristics of alcohol wastewater and corn ethanolproduction process, mainly outside the circle of the UASB reactor start-up process, influencing factors, thegranular sludge cultivation process and the aerobic SBR activated sludge process in the cultivation of thestart of the follow-up to the anaerobic reactor wastewater and sludge. Analysis of the reaction mechanismof the UASB reactor and the SBR process, discusses the laws governing the operation of the reactor andinfluencing factors provide a basis and reference for similar wastewater treatment, the findings have certainpractical engineering and theoretical value.
The main research in the following aspects:
(1) The external cycle UASB reactor process conditions were studied in the time of the start of thecorn alcohol wastewater. Volume load increases in the temperature conditions and determine the best ratioof water and outside the circle of reflux, the reactor start-up conditions and the best operating results,analysis of factors affecting the operating characteristics of the reactor and start, provide a reference forsimilar reactor quickly start.
(2) In debugging startup process, through monitoring indicators of the into, the effluent of COD andBOD_5, total nitrogen, alkalinity, volatile fatty acids, to determine the effects and optimal control ofoperating parameters outside the circle of UASB reactor treating the wastewater of alcohol.
(3) Comparative analysis of conventional UASB reactor and outside the circle of the UASB reactor,the UASB reactor of the outer cycle in terms of the start-up process and run the control conditions showedits superiority.
(4) Analysis of the formation of granular sludge, observed of the granular sludge microbial communitystructure. The surface of the granular sludge culture the dominant species of methanogenic bacteria andmethanogenic coccus, observed mainly methanogenic coccus and eight stacked coccus. Did not find thepresence of filamentous bacteria within the granular sludge, methanogenic rod-shaped bacteria and cocciwere the dominant bacteria, which guarantees the efficient degradation of the hydrolysis intermediates.
(5) Due to the role of the outer cycle, effectively reducing the adverse effects of organic loading andacid shock, the anaerobic system much higher adaptability to bad factors, high speed, not only balanced theinfluent load fluctuations,and to ensure the balance of the acidogenic bacteria and methanogenic bacteriaand methanogenic bacteria activity.
(6) To do a certain amount of discussion and analysis of the scaling problem of the anaerobic reactor,outside the circle back to the distribution system to a certain extent slow down the occurrence of scaling.
(7) Start on the SBR activated sludge process, to master the gradually culture acclimated activatedsludge. Determination of the influent and effluent water quality and the performance of activated sludge,analysis of the mechanism of the aerobic activity of granular sludge and microbial community structure. Tomaster of the activated sludge culture methods and discussed the debug start influencing factors. Aerobicreactor culture of aerobic granular sludge is a hot topic for future research.
引文
[1] http://baike.soso.com/v247472.htm,2012-01-20.
[2]赵雅琴山西省玉米加工业现状及发展对策[D].陕西:西北农林科技大学,2011.
[3]李卓丹.论我国酒精工业推行清洁生产的潜力和机会[J].环境科学研究,1999,12(2):1-7.
[4]买文宁.生物化工废水处理技术及工程实例[M].北京:化学工业出版社,2002:180-182.
[5]贺小荣.酒精废水处理工艺的研究[D].陕西:西北农林科技大学,2008.
[6]贾哓风.酒精废水综合处理技术及工程启动研究[D].郑州:郑州大学,2005.
[7]许英杰.酒精废水处理工艺及生产性启动研究[D].陕西:西北农林科技大学,2005.
[8]赵群英.生产性UASB反应器处理淀粉废水的快速启动研究[D].西安建筑科技大学.2005.
[9]王纬.酒精废水处理及综合利用研究[D].江苏:江南大学,2006.
[10]王凯军,秦人伟.发酵工业废水处理[M].北京:化学工业出版社,2000:115-120
[11] Chamy.R,Pizarro.C,Vivanco.E,et al.Selected experiences in Chile for the application of UASBtechnology for vinasse treatment.Water Science and Technology,2007,56(2):39-48
[12]连学林.常温UASB装置处理五粮液酒厂废水[J].中国沼气,2001,19(4):14-17
[13]徐文析,李蘅.糖蜜酒精废液生化法的研究进展[M].矿产与地质.2002,16(6):375-380.
[14]王勇.利用浓缩燃烧法处理高浓度有机废水的新进展[J].广西轻工业,2002,3(3):20~25
[15]赵雅光.内循环厌氧反应器生产性启动与运行特性研究[D].郑州:郑州大学,2007.
[16] Lettinga.Getal Biotech and Bioeng[M].1980,22(2):699-734.
[17] Sanehez,P.F., Cordoba,P. Sineriz,F. Use of the UASB reaetor for the anaerobie Treatmentof stillagefrom sugareane molasses[J].BioteehnologyandBioengineering.1985,27(12):1710~1716
[18]陈志强,干利川,杨巧利等.UASB/生物接触氧化工艺处理玉米酒精废水[J].中国给水排水,2008,24(24):65-68
[19]买文宁,邢传宏,徐洪斌.有机废水生物处理技术及工程实例[M].化学工业出版社,2008,4-11
[20]连学林.常温UASB装置处理五粮液酒厂废水[J].中国沼气,2001,19(4):14-17
[21] Moletta.R.Winery and distillery wastewater treatment by anaerobic digestion[J],Water Science andTechnology,2005,51(5):137-144
[22]石宪奎.UASB反应器处理玉米淀粉废水稳定性研究[J].工业水处理,2007,27(5):31-33
[23]杨俊仕,周后珍,李国欣等.改良型UASB反应器处理甘薯酒精废液研究[J].中国沼气,2009,27(6):3-6
[24]徐艳红,孙力东,武文国.UASB反应器处理酒精废水的启动方法[J].化工科技,2008,16(3):48-50
[25] Jenicck.Anaerobic treatment of distillery slops in the circumstances of Central Europe[J].WaterScience and Technology,1994,18(5):373-381.
[26]吕建国,张明霞.UASB厌氧反应器污水处理研究进[J].甘肃科技,2010,26(13):95-98
[27]吴静,陆正禹,胡纪萃等.新型高效内循环(IC)厌氧反应器[J].中国给水排水,2001,17(1):26-29
[28]张杰.IC反应器处理猪粪废水条件下污泥颗粒化研究[D].天津:天津科技大学,2002
[29]沈小华.生产性IC反应器的启动及“酸化”研究[D].郑州:郑州大学,2010
[30]梁允,买文宁,王慧芳等.生产性IC反应器处理淀粉酒精综合废水启动研究[J].酿酒科技,200711(161):136-138
[31]许英杰.IC反应器处理酒精废水的生产性启动研究[J].环境工程,200927(5):33-36
[32]薛苗IC反应器处理啤酒废水的启动试验研究[J].安徽农业科学,2010,38(26):14816-14818
[33] Guiot.SR.and Vanden Berg L.Performance and biomanreteation of an upflow anaerobic reactorcombining a sludge blandet and filter[J].Biotechnol Lett,1984,6:161-164.
[34]贾晓凤.酒精废水综合处理技术及工程启动研究[D].郑州:郑州大学,2003
[35] Van Lier J.B,New perspective in anaerobic digestion[J].Wat.Sci.&Tech,2001,43(1):1-18
[36]胡彩静,代淑梅,李秋园.中温EGSB厌氧处理玉米酒精废水的工艺研究[J].食品与发酵工业.2007,33(7):88-90
[37]王凯军.厌氧工艺的发展和新型厌氧反应器[J].环境科学,1998,19(1):94-96
[38]张振家,周伟丽,林荣忱.膨胀颗粒污泥床处理玉米酒精糟液的生产性试验[J].环境科学,2001,22(4):114-116
[39]江瀚,王凯军,倪文.有机负荷及水力条件对EGSB运行效果影响的研究[J].环境污染治理技术与设备,2005,6(1):40-43
[40]陈志强,干利川,杨巧利等.UASB+生物接触氧化工艺处理玉米酒精废水[J].中国给水排水,2008,24(24):65-68
[41]赵希锦. IC+SBR组合工艺的酒精废水中的应用研究[D].四川:西南交通大学,2006
[42]张毅,步德新,潘勇伟.UASB+CASS+接触氧化工艺处理玉米酒精废水[J].环境工程2005,23(5):10-12
[43]陈明忠,岳春,高艾香.UASB+SBR工艺处理燃料乙醇生产废水工程设计[J].中国给水排水,2009,25(8):49-51
[44]刘广亮,买文宁,赵雅光.酒精废水处理工程实例[J].工业用水与废水,2007,38(1):86-88
[45]杨健,章非娟,余志荣.有机工业废水处理理论与技术[M].北京:化学工业出版社.2005:97-104
[46] M.P Bryant.Microbial methane production theoretical aspects[J].J Animal Science1979,48:194-201
[47]马溪平.厌氧微生物学与污水处理[M].北京:化学工业出版社,2005:4-6
[48] Zeikus.J.G.Microbial Popilations in Digesters [J].Anaerobic Digestion. Applied Science Publisher,1979:67-89
[49] R.E.Speece著.工业废水的厌氧生物技术[M].北京:中国建筑工业出版社,2001.
[50]贺延龄.废水的厌氧生物处理[M].北京:中国轻工业出版社,1998
[51] Lettinga.G.etal.Use of Upflow Sludge Blanket(UASB)Reactor Concept for Biological WastewaterTreatment Especially for Anaerobic Treatment[J].Biotech.Bioeng,1980,22:669-737
[52]朱凤松.厌氧附着膜膨胀床(AAFEB)反应器处理乳品废水的研究[D].上海:东南大学,2005
[53]王海涛.高浓度难降解有机废水的间歇水解—好氧循环生物处理技术研究[D].厦门:厦门大学,2007
[54] Lepisto SS. etal. Start up and operation of laboratory scalethe mophilie upflow anaerobic sludgeblank reactor treating vegetable processing wastewater[J]. Chem. Technol. Biotecnol.1997.68:331
[55] LettingaG,FieldJ,VanlierJ,etal.Advanced anaerobic wastewater treatment in the near future. Wat.Sci.Technol.1997,35(10):5-12
[56]王凯军.UASB工艺系统设计方法探讨[J].中国沼气,2002,20(2):18-23
[57]胡纪萃,周孟津,左剑恶等.废水生物处理理论与技术[M].北京:中国建筑工业出版社.2003:6~17,113-114
[58] vander last.A.R.M.and G.Lettinga.6th Int.Symp.Anaerobic Digestion.Sao Paulo.Brazil.1991,153-154
[59]王凯军.厌氧工艺的发展和新型的厌氧反应器[J].环境科学,1999,19(1):94-96
[60] Schmidt J E,Ahring B R.Granular sludge Formation in upflow anaerobic sludge blanket(UASB)reactors[J].Biotechnology and Bioengineering,1996,49:229
[61]谭万春.UASB工艺及工程实例[M].北京:化学工业出版社.2010:12-14
[62]石先奎.处理玉米淀粉废水污泥颗粒化机理研究[J].工业水处理,2008,28(11):50-52
[63]李军,杨秀山.微生物与水处工程[M],北京:化学工业出版社,2002
[64] Kosaric,K.etal.Wat.Res,1990(24):1473-1477
[65] A.AIPhenaar. Anaerobie Granular Sludge:Characterization and Factors Affeeting its Funetions.Ph.D.Thesis[D].the Netheriands:WAU,1994
[66] Beeftink,H.H. G.Lettinga eral.Granular Anaerobic Sludge[J].Microbiology and Technology,TheNetherlands:Pudoc Wageningen,1988
[67] Hulshoff Pol,L.W.The Phenomenon of Granulation of Anaerobic Sludge[D].Ph.D.Thesis.TheNetherlands:WAU,1989
[68] Ross,W.R.Water SA,1984(10):197-204
[69] Liu,A.B.and J.C.Hu.A Study on the Granular Sludge in UASB Reactor at Ambient TemperatureandIts Properties[J].Research Report,Tsinghua Univ,Beijing.1988
[70] Schmidt J E,Ahring B R.Granular sludge Formation in upflow anaerobic sludge blanketreactors[J].Biotechnology and Bioengineering,1996,49:229
[71]杨秀山等.固定化甲烷八叠球菌(Methanosarcina)研究[J].中国环境科学,1998,18(4):356
[72] Wuertz,S.,Spaeth,R.Hinderberger,A.A new method for extraction of extracellular polymericsubstances from biofilms and activated sludge suitable for direct quantification of sorbedmetals[J].Water Sci.Technol.,2001,43(6):25-31
[73] Lettinga G,et al.Use of the upflow sludge blanket(UASB)reactor concept for biological wasterwatertreatment,especially for anaerobic treatment[J].Biotechnol Bioeng,1980,22:699
[74]申立贤.高浓度有机废水厌氧处理技术[J].北京:中国环境科学出版社,1991
[75]应一梅.内循环厌氧生物反应器处理酒精工业废水的生产性启动研究[D].郑州:郑州大学,2004
[76]苏涛.玉米酒精废水处理工艺及启动研究[D].郑州:郑州大学,2010.
[77]马永鹏.M-CASS工艺处理酒精废水实验研究[D].郑州:郑州大学,2010
[78]钱易.现代废水处理新技术[M],北京:中国科学技术出版社,1993
[79]胡林林,王建龙,文湘华等.SBR中厌氧颗粒污泥向好氧颗粒污泥的转化[J].环境科学,2004,25(4):74-77
[80] Tay J H, Ivanov V, PanS,etal.Specific layer in aerobically grown microbial granules[J].Lettappl micro,2004(34):254-257
[81]张兴文,王芳,杨凤林.好氧颗粒污泥的特点及其研究进展[J].环境污染治理技术与设备,2004,5(11):27-30
[82]张天爽.好氧颗粒污泥研究进展[J].山西建筑.2009,35(7):194~195
[83] DeKreuk,M.K.,McSwain,B.S.Discussion outcomes. In Aerobic Granular Sludg e.N(eds),IWA[M].London:UK,2005:153-169
[84] Liu Y, Tay J H. T he essential role of hydro dynamic shear for cein the formation of biofilm andgranular sludg e[J].Water Research,2002,36(7):1653-1665.
[85]方战强,陈中豪,胡勇有等.外循环UASB的结构与设计方法[J].工业水处理,2003,23(4):72-75
[86]张丽洁.内循环上流式厌氧污泥床工艺的研究[J].青岛建筑工程学院学报,2003,24(1)
[87]张振家,张仁江,谷成等.UAHB反应器高温处理玉米酒精糟液研究[J].中国给水排水,2000,16(5):5-7
[88] Laguna A. A simple and low cost technique for determining the granulometry of upflow anaerobicsludge blanketr eactor sludge[J]. Water Science Technology,2000,(40):1~8
[89] Sallis P J, Uyanik S.Granule development in a split-feed anaerobic baffled reactor (SFABR)[J]Bioresource Technology,2003,89(3):255–265
[90] Chang H T, Rittmann B E. Biofilm loss during sample preparation for scanning electron microscopy[J]. Water Research,1986,20(11):1451-1456.
[91]董春娟,吕炳南.厌氧颗粒污泥的性能研究[J].环境工程学报,2007,6(1):102-107
[92]符波,廖潇逸,丁丽丽,任洪强.环境扫描电镜对废水生物样品形态结构的表征研究[J].中国环境科学2009,30(1):93~98
[93] Fuhrman J A. Influence of method on the apparent sizedistribution of bacterioplankton cells:epifluorescence microscopy compared to scanning electron microscopy[J].Mar.Ecol.Prog.Ser,1981,5:103-106.
[94]杨健,王夙,张利群.上流式厌氧污泥床快速启动污泥颗粒化试验[J],同济大学学报(自然科学版)2008,36(3):350-355
[95]国家环境保护总局,《水和废水监测分析方法》编委会.水和废水监测分析方法(第四版).北京:中国环境科学出版社,2002.12
[96]石宪奎,王凯军.颗粒污泥粒径的工程测定方法[J].环境污染与防治,2006,28(2):140-142
[97] CJ/T221-2005,中华人民共和国城镇建设行业标准,城市污水处理厂污泥检验方法
[98]李东伟,王克浩,徐中慧等.产甲烷UASB中颗粒污泥的快速培养及特性研究[J],中国给水排水2008,24(9)
[99] M.Hutnan,M.Drtil,L.Mrafkova,et al.Co-mparison of start up and anaerobic wastewater treatmentin UASB,hybrid and baffled reactor.Bioprocess Engineering,1999,21(5):439-445
[100]张传兵. UASB反应器处理啤酒废水启动运行研究[J].水处理技术,2010,36(7):43-45
[101]杜兵,齐文钰. UASB处理酒精废水生产运行研究[J].中国沼气,1999,17(2):14-17
[102] Alper T. Akarsubasi,Orhan Ince,Nilgun A.Oz,et al.Evaluation of performance,ac-etoclasticmethanogenic activity and archaealcomposition of full-scale UASB reactors tre-ating alcohol distillerywastewaters.Process Biochemistry,2006,41(1):28-35
[103]曹刚,徐向阳,冯孝善.碱度对UASB污泥颗粒化的影响[J].中国给水排水,2002,18(8):13-15
[104]于军,于红霞,柳巍.内循环UASB技术及其生产性试验研究[J].给水排水,2000,26(4):31-33
[105]张丽洁,耿良.内循环上流式厌氧污泥床工艺的研究[J].青岛建筑工程学院学报,2003,24(1):92-96
[106]符波,廖潇逸,丁丽丽等.环境扫描电镜对废水生物样品形态结构的表征研究[J].中国环境科学,2009,30(1):93-98
[107]滕红文.高温UASB产沼工程的设计、运行与管理[J].中国给水排水,2010,26(16):141-143
[108] Mamais.D,Pitt.P.A,Yao Wencheng,et al, Determination of ferric chloride dose to control struviteprecipitation in anaerobic sludgedigesters.Water Environment Research,1994,66(7):912-918
[109]朱金英,杨金国.UASB反应器的运行管理[J].甘肃科技,2010,26(18):82-85
[110]唐受印.废水处理工程[M].化学工业出版社.2005
[111]苏涛.玉米酒精废水处理工艺及启动研究[D].郑州:郑州大学硕士学位论文.2010,6
[112]赵希锦.IC+SBR组合工艺的酒精废水中的应用研究[D].西安交通大学硕士学位论文.2006,6
[113]顾夏声,黄铭荣.水处理工程[M].第一版.北京:清华大学出版社,1985.
[114]宋志伟,梁洋.好氧颗粒污泥的培养及其性能[J].黑龙江科技学院学报,2008,18(3):164-167
[115]杨麒,李小明,曾光明等.SBR系统中同时硝化反硝化好氧颗粒污泥的培养[J].环境科学,2003,24(4):94–99
[116] LIU YU,YANG SHUFANG, TAYJH. Improve stability of aerobic granules by selecting slowgrowing nitrifying bacteria[J]. J Biotech,2004,108(2):161-169.
[117]刘玉玲,高升,白凯.好氧颗粒污泥的培养及其特性研究[J].西安理工大学学报2011,27(3):329-333
[118]涂响,苏本生,孔云华等.城市污水培养好氧颗粒污泥的中试研究[J].环境科学,2010,31(9):2118-2122
[119]宁晓磊,刘士军,陈星等.SBR工艺处理屠宰废水好氧颗粒污泥的形成条件及性能分析[J].环境保护科学.2011,37(5):26-29
[120]王芳,杨凤林,张兴文等.不同有机负荷下好氧颗粒污泥的特性[J].中国给水排水,.2004,20(11):46-48
[2]赵雅琴山西省玉米加工业现状及发展对策[D].陕西:西北农林科技大学,2011.
[3]李卓丹.论我国酒精工业推行清洁生产的潜力和机会[J].环境科学研究,1999,12(2):1-7.
[4]买文宁.生物化工废水处理技术及工程实例[M].北京:化学工业出版社,2002:180-182.
[5]贺小荣.酒精废水处理工艺的研究[D].陕西:西北农林科技大学,2008.
[6]贾哓风.酒精废水综合处理技术及工程启动研究[D].郑州:郑州大学,2005.
[7]许英杰.酒精废水处理工艺及生产性启动研究[D].陕西:西北农林科技大学,2005.
[8]赵群英.生产性UASB反应器处理淀粉废水的快速启动研究[D].西安建筑科技大学.2005.
[9]王纬.酒精废水处理及综合利用研究[D].江苏:江南大学,2006.
[10]王凯军,秦人伟.发酵工业废水处理[M].北京:化学工业出版社,2000:115-120
[11] Chamy.R,Pizarro.C,Vivanco.E,et al.Selected experiences in Chile for the application of UASBtechnology for vinasse treatment.Water Science and Technology,2007,56(2):39-48
[12]连学林.常温UASB装置处理五粮液酒厂废水[J].中国沼气,2001,19(4):14-17
[13]徐文析,李蘅.糖蜜酒精废液生化法的研究进展[M].矿产与地质.2002,16(6):375-380.
[14]王勇.利用浓缩燃烧法处理高浓度有机废水的新进展[J].广西轻工业,2002,3(3):20~25
[15]赵雅光.内循环厌氧反应器生产性启动与运行特性研究[D].郑州:郑州大学,2007.
[16] Lettinga.Getal Biotech and Bioeng[M].1980,22(2):699-734.
[17] Sanehez,P.F., Cordoba,P. Sineriz,F. Use of the UASB reaetor for the anaerobie Treatmentof stillagefrom sugareane molasses[J].BioteehnologyandBioengineering.1985,27(12):1710~1716
[18]陈志强,干利川,杨巧利等.UASB/生物接触氧化工艺处理玉米酒精废水[J].中国给水排水,2008,24(24):65-68
[19]买文宁,邢传宏,徐洪斌.有机废水生物处理技术及工程实例[M].化学工业出版社,2008,4-11
[20]连学林.常温UASB装置处理五粮液酒厂废水[J].中国沼气,2001,19(4):14-17
[21] Moletta.R.Winery and distillery wastewater treatment by anaerobic digestion[J],Water Science andTechnology,2005,51(5):137-144
[22]石宪奎.UASB反应器处理玉米淀粉废水稳定性研究[J].工业水处理,2007,27(5):31-33
[23]杨俊仕,周后珍,李国欣等.改良型UASB反应器处理甘薯酒精废液研究[J].中国沼气,2009,27(6):3-6
[24]徐艳红,孙力东,武文国.UASB反应器处理酒精废水的启动方法[J].化工科技,2008,16(3):48-50
[25] Jenicck.Anaerobic treatment of distillery slops in the circumstances of Central Europe[J].WaterScience and Technology,1994,18(5):373-381.
[26]吕建国,张明霞.UASB厌氧反应器污水处理研究进[J].甘肃科技,2010,26(13):95-98
[27]吴静,陆正禹,胡纪萃等.新型高效内循环(IC)厌氧反应器[J].中国给水排水,2001,17(1):26-29
[28]张杰.IC反应器处理猪粪废水条件下污泥颗粒化研究[D].天津:天津科技大学,2002
[29]沈小华.生产性IC反应器的启动及“酸化”研究[D].郑州:郑州大学,2010
[30]梁允,买文宁,王慧芳等.生产性IC反应器处理淀粉酒精综合废水启动研究[J].酿酒科技,200711(161):136-138
[31]许英杰.IC反应器处理酒精废水的生产性启动研究[J].环境工程,200927(5):33-36
[32]薛苗IC反应器处理啤酒废水的启动试验研究[J].安徽农业科学,2010,38(26):14816-14818
[33] Guiot.SR.and Vanden Berg L.Performance and biomanreteation of an upflow anaerobic reactorcombining a sludge blandet and filter[J].Biotechnol Lett,1984,6:161-164.
[34]贾晓凤.酒精废水综合处理技术及工程启动研究[D].郑州:郑州大学,2003
[35] Van Lier J.B,New perspective in anaerobic digestion[J].Wat.Sci.&Tech,2001,43(1):1-18
[36]胡彩静,代淑梅,李秋园.中温EGSB厌氧处理玉米酒精废水的工艺研究[J].食品与发酵工业.2007,33(7):88-90
[37]王凯军.厌氧工艺的发展和新型厌氧反应器[J].环境科学,1998,19(1):94-96
[38]张振家,周伟丽,林荣忱.膨胀颗粒污泥床处理玉米酒精糟液的生产性试验[J].环境科学,2001,22(4):114-116
[39]江瀚,王凯军,倪文.有机负荷及水力条件对EGSB运行效果影响的研究[J].环境污染治理技术与设备,2005,6(1):40-43
[40]陈志强,干利川,杨巧利等.UASB+生物接触氧化工艺处理玉米酒精废水[J].中国给水排水,2008,24(24):65-68
[41]赵希锦. IC+SBR组合工艺的酒精废水中的应用研究[D].四川:西南交通大学,2006
[42]张毅,步德新,潘勇伟.UASB+CASS+接触氧化工艺处理玉米酒精废水[J].环境工程2005,23(5):10-12
[43]陈明忠,岳春,高艾香.UASB+SBR工艺处理燃料乙醇生产废水工程设计[J].中国给水排水,2009,25(8):49-51
[44]刘广亮,买文宁,赵雅光.酒精废水处理工程实例[J].工业用水与废水,2007,38(1):86-88
[45]杨健,章非娟,余志荣.有机工业废水处理理论与技术[M].北京:化学工业出版社.2005:97-104
[46] M.P Bryant.Microbial methane production theoretical aspects[J].J Animal Science1979,48:194-201
[47]马溪平.厌氧微生物学与污水处理[M].北京:化学工业出版社,2005:4-6
[48] Zeikus.J.G.Microbial Popilations in Digesters [J].Anaerobic Digestion. Applied Science Publisher,1979:67-89
[49] R.E.Speece著.工业废水的厌氧生物技术[M].北京:中国建筑工业出版社,2001.
[50]贺延龄.废水的厌氧生物处理[M].北京:中国轻工业出版社,1998
[51] Lettinga.G.etal.Use of Upflow Sludge Blanket(UASB)Reactor Concept for Biological WastewaterTreatment Especially for Anaerobic Treatment[J].Biotech.Bioeng,1980,22:669-737
[52]朱凤松.厌氧附着膜膨胀床(AAFEB)反应器处理乳品废水的研究[D].上海:东南大学,2005
[53]王海涛.高浓度难降解有机废水的间歇水解—好氧循环生物处理技术研究[D].厦门:厦门大学,2007
[54] Lepisto SS. etal. Start up and operation of laboratory scalethe mophilie upflow anaerobic sludgeblank reactor treating vegetable processing wastewater[J]. Chem. Technol. Biotecnol.1997.68:331
[55] LettingaG,FieldJ,VanlierJ,etal.Advanced anaerobic wastewater treatment in the near future. Wat.Sci.Technol.1997,35(10):5-12
[56]王凯军.UASB工艺系统设计方法探讨[J].中国沼气,2002,20(2):18-23
[57]胡纪萃,周孟津,左剑恶等.废水生物处理理论与技术[M].北京:中国建筑工业出版社.2003:6~17,113-114
[58] vander last.A.R.M.and G.Lettinga.6th Int.Symp.Anaerobic Digestion.Sao Paulo.Brazil.1991,153-154
[59]王凯军.厌氧工艺的发展和新型的厌氧反应器[J].环境科学,1999,19(1):94-96
[60] Schmidt J E,Ahring B R.Granular sludge Formation in upflow anaerobic sludge blanket(UASB)reactors[J].Biotechnology and Bioengineering,1996,49:229
[61]谭万春.UASB工艺及工程实例[M].北京:化学工业出版社.2010:12-14
[62]石先奎.处理玉米淀粉废水污泥颗粒化机理研究[J].工业水处理,2008,28(11):50-52
[63]李军,杨秀山.微生物与水处工程[M],北京:化学工业出版社,2002
[64] Kosaric,K.etal.Wat.Res,1990(24):1473-1477
[65] A.AIPhenaar. Anaerobie Granular Sludge:Characterization and Factors Affeeting its Funetions.Ph.D.Thesis[D].the Netheriands:WAU,1994
[66] Beeftink,H.H. G.Lettinga eral.Granular Anaerobic Sludge[J].Microbiology and Technology,TheNetherlands:Pudoc Wageningen,1988
[67] Hulshoff Pol,L.W.The Phenomenon of Granulation of Anaerobic Sludge[D].Ph.D.Thesis.TheNetherlands:WAU,1989
[68] Ross,W.R.Water SA,1984(10):197-204
[69] Liu,A.B.and J.C.Hu.A Study on the Granular Sludge in UASB Reactor at Ambient TemperatureandIts Properties[J].Research Report,Tsinghua Univ,Beijing.1988
[70] Schmidt J E,Ahring B R.Granular sludge Formation in upflow anaerobic sludge blanketreactors[J].Biotechnology and Bioengineering,1996,49:229
[71]杨秀山等.固定化甲烷八叠球菌(Methanosarcina)研究[J].中国环境科学,1998,18(4):356
[72] Wuertz,S.,Spaeth,R.Hinderberger,A.A new method for extraction of extracellular polymericsubstances from biofilms and activated sludge suitable for direct quantification of sorbedmetals[J].Water Sci.Technol.,2001,43(6):25-31
[73] Lettinga G,et al.Use of the upflow sludge blanket(UASB)reactor concept for biological wasterwatertreatment,especially for anaerobic treatment[J].Biotechnol Bioeng,1980,22:699
[74]申立贤.高浓度有机废水厌氧处理技术[J].北京:中国环境科学出版社,1991
[75]应一梅.内循环厌氧生物反应器处理酒精工业废水的生产性启动研究[D].郑州:郑州大学,2004
[76]苏涛.玉米酒精废水处理工艺及启动研究[D].郑州:郑州大学,2010.
[77]马永鹏.M-CASS工艺处理酒精废水实验研究[D].郑州:郑州大学,2010
[78]钱易.现代废水处理新技术[M],北京:中国科学技术出版社,1993
[79]胡林林,王建龙,文湘华等.SBR中厌氧颗粒污泥向好氧颗粒污泥的转化[J].环境科学,2004,25(4):74-77
[80] Tay J H, Ivanov V, PanS,etal.Specific layer in aerobically grown microbial granules[J].Lettappl micro,2004(34):254-257
[81]张兴文,王芳,杨凤林.好氧颗粒污泥的特点及其研究进展[J].环境污染治理技术与设备,2004,5(11):27-30
[82]张天爽.好氧颗粒污泥研究进展[J].山西建筑.2009,35(7):194~195
[83] DeKreuk,M.K.,McSwain,B.S.Discussion outcomes. In Aerobic Granular Sludg e.N(eds),IWA[M].London:UK,2005:153-169
[84] Liu Y, Tay J H. T he essential role of hydro dynamic shear for cein the formation of biofilm andgranular sludg e[J].Water Research,2002,36(7):1653-1665.
[85]方战强,陈中豪,胡勇有等.外循环UASB的结构与设计方法[J].工业水处理,2003,23(4):72-75
[86]张丽洁.内循环上流式厌氧污泥床工艺的研究[J].青岛建筑工程学院学报,2003,24(1)
[87]张振家,张仁江,谷成等.UAHB反应器高温处理玉米酒精糟液研究[J].中国给水排水,2000,16(5):5-7
[88] Laguna A. A simple and low cost technique for determining the granulometry of upflow anaerobicsludge blanketr eactor sludge[J]. Water Science Technology,2000,(40):1~8
[89] Sallis P J, Uyanik S.Granule development in a split-feed anaerobic baffled reactor (SFABR)[J]Bioresource Technology,2003,89(3):255–265
[90] Chang H T, Rittmann B E. Biofilm loss during sample preparation for scanning electron microscopy[J]. Water Research,1986,20(11):1451-1456.
[91]董春娟,吕炳南.厌氧颗粒污泥的性能研究[J].环境工程学报,2007,6(1):102-107
[92]符波,廖潇逸,丁丽丽,任洪强.环境扫描电镜对废水生物样品形态结构的表征研究[J].中国环境科学2009,30(1):93~98
[93] Fuhrman J A. Influence of method on the apparent sizedistribution of bacterioplankton cells:epifluorescence microscopy compared to scanning electron microscopy[J].Mar.Ecol.Prog.Ser,1981,5:103-106.
[94]杨健,王夙,张利群.上流式厌氧污泥床快速启动污泥颗粒化试验[J],同济大学学报(自然科学版)2008,36(3):350-355
[95]国家环境保护总局,《水和废水监测分析方法》编委会.水和废水监测分析方法(第四版).北京:中国环境科学出版社,2002.12
[96]石宪奎,王凯军.颗粒污泥粒径的工程测定方法[J].环境污染与防治,2006,28(2):140-142
[97] CJ/T221-2005,中华人民共和国城镇建设行业标准,城市污水处理厂污泥检验方法
[98]李东伟,王克浩,徐中慧等.产甲烷UASB中颗粒污泥的快速培养及特性研究[J],中国给水排水2008,24(9)
[99] M.Hutnan,M.Drtil,L.Mrafkova,et al.Co-mparison of start up and anaerobic wastewater treatmentin UASB,hybrid and baffled reactor.Bioprocess Engineering,1999,21(5):439-445
[100]张传兵. UASB反应器处理啤酒废水启动运行研究[J].水处理技术,2010,36(7):43-45
[101]杜兵,齐文钰. UASB处理酒精废水生产运行研究[J].中国沼气,1999,17(2):14-17
[102] Alper T. Akarsubasi,Orhan Ince,Nilgun A.Oz,et al.Evaluation of performance,ac-etoclasticmethanogenic activity and archaealcomposition of full-scale UASB reactors tre-ating alcohol distillerywastewaters.Process Biochemistry,2006,41(1):28-35
[103]曹刚,徐向阳,冯孝善.碱度对UASB污泥颗粒化的影响[J].中国给水排水,2002,18(8):13-15
[104]于军,于红霞,柳巍.内循环UASB技术及其生产性试验研究[J].给水排水,2000,26(4):31-33
[105]张丽洁,耿良.内循环上流式厌氧污泥床工艺的研究[J].青岛建筑工程学院学报,2003,24(1):92-96
[106]符波,廖潇逸,丁丽丽等.环境扫描电镜对废水生物样品形态结构的表征研究[J].中国环境科学,2009,30(1):93-98
[107]滕红文.高温UASB产沼工程的设计、运行与管理[J].中国给水排水,2010,26(16):141-143
[108] Mamais.D,Pitt.P.A,Yao Wencheng,et al, Determination of ferric chloride dose to control struviteprecipitation in anaerobic sludgedigesters.Water Environment Research,1994,66(7):912-918
[109]朱金英,杨金国.UASB反应器的运行管理[J].甘肃科技,2010,26(18):82-85
[110]唐受印.废水处理工程[M].化学工业出版社.2005
[111]苏涛.玉米酒精废水处理工艺及启动研究[D].郑州:郑州大学硕士学位论文.2010,6
[112]赵希锦.IC+SBR组合工艺的酒精废水中的应用研究[D].西安交通大学硕士学位论文.2006,6
[113]顾夏声,黄铭荣.水处理工程[M].第一版.北京:清华大学出版社,1985.
[114]宋志伟,梁洋.好氧颗粒污泥的培养及其性能[J].黑龙江科技学院学报,2008,18(3):164-167
[115]杨麒,李小明,曾光明等.SBR系统中同时硝化反硝化好氧颗粒污泥的培养[J].环境科学,2003,24(4):94–99
[116] LIU YU,YANG SHUFANG, TAYJH. Improve stability of aerobic granules by selecting slowgrowing nitrifying bacteria[J]. J Biotech,2004,108(2):161-169.
[117]刘玉玲,高升,白凯.好氧颗粒污泥的培养及其特性研究[J].西安理工大学学报2011,27(3):329-333
[118]涂响,苏本生,孔云华等.城市污水培养好氧颗粒污泥的中试研究[J].环境科学,2010,31(9):2118-2122
[119]宁晓磊,刘士军,陈星等.SBR工艺处理屠宰废水好氧颗粒污泥的形成条件及性能分析[J].环境保护科学.2011,37(5):26-29
[120]王芳,杨凤林,张兴文等.不同有机负荷下好氧颗粒污泥的特性[J].中国给水排水,.2004,20(11):46-48