摘要
以西安市北石桥污水处理厂二级处理水为研究对象,通过臭氧—生物活性炭(O_3—BAC)工艺进行了以污水再生回用为目的的城市污水深度处理中试试验。试验考察了该工艺的处理效果,并分析研究了水中污染物的臭氧化特性以及生物活性炭滤床的处理特性。
臭氧-生物活性炭工艺能有效去除水中浊度、色度和嗅等感官性指标,色度去除率为92%,浊度去除率为82.8%,出水无不良味道。工艺对有机物具有良好的去除效果,UV_(254)去除率为57.9%,TOC去除率为25.8%。虽然臭氧生物活性炭工艺对氮的总量并没有降低,但是工艺对氮元素的存在形态有明显改变。水中有机氮、亚硝氮、氨氮基本上被氧化为硝氮存在于水中。工艺出水水质优于生活杂用水和景观用水水质标准。
臭氧化的功效并不在于改变有机物总量,其功效在于使有机物结构和性质发生改变,将大分子、不饱和性有机物氧化分解为饱和性、小分子有机物,提高有机物生化降解性,使原水的可生物降解溶解性有机碳BDOC从0.725mg/L提高到1.917mg/L。北石桥二级处理水中的有机物主要是一些芳香族、链烃类和脂肪族有机物,经过臭氧化后处理水中脂肪族、羧酸类、酯类有机物等生物易降解性有机物呈增加趋势。
生物活性炭床中生物量沿炭层深度呈递减关系,BAC滤柱中生物量主要集中在滤柱中上部,滤柱中有机物的去除与生物量的分布相似,也主要集中在滤池中上部。TOC在BAC柱中去除的绝对值为1.142mg/L,BDOC在BAC柱中去除的绝对值为1.206mg/L,二者基本相当,说明BAC柱中主要是通过微生物的新陈代谢作用对生物可降解性的有机物进行去除,而难降解性有机物还以TOC的形式存在,这与GC-MS的检测结果相一致。
Aimed at reclamation of sewage, a pilot-scale experiment was conducted to treat the effluent from the secondary sedimentation tank of Xi'an Beishiqiao Wastewater Purification Center by Ozone and Biological Activated Carbon (O3-BAC) process. The experiment studied the removal efficiency of pollutants, the oxidation characteristic of ozone, and the characteristic of biological activated carbon filtering bed.
The results showed that the O3-BAC process could remove organic matters, turbidity, color and odor efficiently. The average removal efficiencies of color, turbidity, UV254and TOC were 92%, 82.8%, 57.9% and 25.8% respectively, and although TN was not reduced, the form of nitrogen was changed obviously, with most of organic nitrogen, NO2-N, NH3-N oxidized into NO3--N. The effluent quality was good enough to meet the standards of miscellaneous and landscaping water.
The ozonation didn't decrease the total amount of organic matters, but changed molecule structure and character of them. The organic matters with high molecule weight and unsaturated functions were oxidated into those with lower molecule weight and saturated functions. The biodegradability of organic matters was increased, with BDOC increasing from 0.725 mg/L to 1.917 mg/L as the result. Most of the organic matters in raw water were those with aromatic, carboxyl groups and hydrocarbon chains, and after ozonation, the amount of biodegradable matters such as lipid, carboxyl and aliphatic substances was increased.
It was also revealed that biomass in the biological activated carbon bed decreased correspondingly with the depth of carbon bed, and the biomass mainly centralized at the upper and middle of filtering bed. Similarly, the removal efficacy of organic matters
decreased when the depth of carbon layer increased. The removal amount of TOC and BDOC by BAC was 1.142 mg/L and l.206mg/L, respectively, and the two values was so close, which demonstrated that biodegradable organic matters were mainly removed by metabolism, and undegradable organic matters still remained in the form of TOC. The above result was in accordance with the analysis results of GC-MS.
引文
[1] 雷乐成等:污水回用新技术及工程设计,北京:化学工业出版社,2002,8。
[2] 钱易:我国城市污水资源化面临的问题和发展战略,建设科技,2002,8。
[3] 周彤:污水回用是解决城市缺水的有效途径,给水排水,Vol.27,No.11,2001。
[4] 李国欣 李旭东:污水资源化利用技术现状及其应用实例,给水排水,Vol.27,No.5,2001。
[5] 蹇兴超:城市污水回用技术现状和发展趋势,环境保护,1996,(8):15~17。
[6] 陈汗辉:污水回用的发展与前景。污染防治技术,1999,12(3):55~57。
[7] Haafhoff J and Van der Merwe B.Twenty-five years of wastewater reclamation in Windhoek, Namibia.Wat Sci Tech,1996,33(10~11): 25~35。
[8] 吴键,张理等:西安市城市污水处理及污水资源化,建设科技,2002,2。
[9] 王琳,王宝贞等:我国污水回用的必要性和可行性,建设科技,2002,2。
[10] 雷乐成,杨岳平等:污水回用新技术及工程设计,北京化学工业出版社,2002。
[11] 王琳,王宝贞:饮用水深度处理技术,北京:化学工业出版社,2002。
[12] 孙德智:环境工程中的高级氧化技术,北京:化学工业出版社,2002。
[13] Weissenhom FJ.The behavior of Ozone in the System and Its transformation AMK-Berlin, 1977,(2):51-57。
[14] Parkhurst, J. Petal Pomona activated carborn pilot plant J WPCF, 1976,37(1)。
[15] 李伟光等:生物活性炭净化效能的研究,哈尔滨建筑大学学报,Vol(32)6,1999,12:105~109。
[16] Eberhardt M S.Untersuchunger Zur Berwendung Biolosisch Arbeitender Ativkohle GilterBeiDe Trinkwasseranf Bereitung.Wasser-Abwasser, 1975,116(6):29-34。
[17] Sontheimer H.The Mulheim Process.J.AWWA,1978,70(7):62-68。
[18] Greeting F.Wxperience with Ozone Treatment of Water in Switzerland.In:Andrews G F, Proceedings 8th Ozone World Congress.Zurich:IOA,1987,49-54。
[19] Gomella C.Ozone Practices in France.J.AWWA, 1972,64(1)。
[20] 田禹等:臭氧生物活性炭联用技术发展状况,哈尔滨工业大学学报,Apr 1998,Vol.30,No2。
[21] 王晓昌:低浓度臭氧化—生物活性炭技术研究,陕西省自然科学基金申请书,1999。
[22] 武吉华:中国北方资源开发与环境研究,北京海洋出版社,1992。
[23] 王晓昌:西部干旱缺水地区水资源再生利用研究,国家自然科学基金申请书,2001。
[24] 胡彬启,王社平:西安市北石桥污水处理厂设计,给水排水,1995,No.9。
[25] 李燕城:水处理实验技术,北京:中国建筑工业出版社,1989。
[26] 顾平,王占生,陶宝楷:靛红钾比色测定水中臭氧浓度的方法,环境工程,1985。
[27] 于鑫,张晓健,王占生:饮用水生物处理中生物量的脂磷法测定,给水排水,2002,Vol(28),5。
[28] Narasimmalu R, Osamu M, Norifumi I,Yoshikuni U.Variation in microbial biomass and community structure in sediments of eutrophic bays as determined by phospholipid ester linked fatty acids. Appl Environ Microbiol, 1992,58(2): 562~571。
[29] 水质分析方法国家标准汇编(1996),中国标准出版社编,北京:中国标准出版社,1996。
[30] 王占生,刘文君:微污染水源饮用水处理,中国建筑工业出版社,1999。
[31] 国家环保局《水和废水监测分析方法》编委会,水和废水监测分析方法(第三版),北京:中国环境科学出版社,1989。
[32] 胡家骏,周群英:环境工程微生物学,北京:高等教育出版社,1996。
[33] Martin R Jekel. Flocculation effects of ozone. Ozone Sci&Engineering, 1994, 16:55~66。
[34] 孙昕,张金松:饮用水预臭氧化技术的进展,给水排水,2002,28(4)。
[35] 王晓昌:臭氧用于给水处理的几个理论和技术问题,西安建筑科技大学,1998,12,VOL.30No.4。
[36] 王宝贞,尹军:臭氧和活性炭水处理技术的若干问题研究与探讨,哈尔滨建筑工程学院学报,1985,第3期
[37] 李绍峰,黄君礼等:臭氧—生物活性炭—膜法处理自来水[J],中国给水排水,2002,第3期。
[38] Rip G. Rice et al.Use of ozone in drinking water treatment[J]. J.AWWA, 1981, 73(1):44-56。
[39] 王宝贞:水污染控制工程[M].北京:高等教育出版社。
[40] Staehelin J.And Hoigne J.Decomposition of Ozone in Water in the Presence of Organic Solutes Acting as Promoters and Inhibitors of Radical Chain Reactions[J].Environ.Sci. Technol.,1985,19(12):1206-1219。
[41] 王晓昌:臭氧消毒的副产物[J],给水排水,1998,24(12):75-77。
[42] 唐受印,戴友芸:水处理工程师手册,化学工业出版社。
[43] 张自杰,顾夏声:排水工程下册(第四版)中国建筑工业出版社,2000,6。
[44] LI CW, Korshin GV, Benjamin MM.Monitoring DBP formation with differential UV spectroscopy. J.AWWA. 1998, 90(8):88~100。
[45] Tambo N,Kamei K.Treatability evaluation of general organic matter-matrix conception and its application for a regional water and waster water system. Water Research.1978,12:931~950。
[46] 金鹏康,王晓昌:水中腐殖酸臭氧化特性研究,西安建筑科技大学学报,2000,4。
[47] 丹保宪仁,水道技报堂出版株式会社.东京.1983,160~173。
[48] Heijnen J J, Van Loosdrecht M C M,Mulder A, et al.formation of biofilms in biofilm air-lift suspenion reacter.Water Sci Technol,1992,26(5): 647~654.
[49] 杨平,潘永亮等:废水生物处理中生物膜的形成及动力学研究进展,Research of Environmental Sciences Vol,13,No,5,2000。
[50] 孙建平、李文红、马放、王宝贞:固定化微生物对饮用水净化效能的研究,中国给水排水,2000,2。
[51] 顾国维:水污染控制技术研究。上海,同济大学出版社,1996。
[52] 沈耀良等:固定化微生物污水处理技术,北京,化学工业出版社,2002。