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A^2/O氧化沟工艺中NO3^-对生物除磷影响 被引量:13

Effect of nitrate on biological phosphorus removal with anaerobic-anoxic-aerobic oxidation ditch process
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摘要 为研究NO3^-对生物除磷的影响,采用A^2/O氧化沟中试对城市污水进行4个月的研究,并结合静态试验和实际A^2/O氧化沟污水处理厂运行结果,研究NO3^-对厌氧释磷影响,首次全面研究NO3^-对二沉池释磷的影响.中试试验反应器总有效容积为375 L.结果表明,氧化沟出水ρ(NO3^-)〉5.0 mg/L时,回流污泥带入的NO3^-较多,不利于磷的释放,TP去除率随出水NO3^-的升高而降低;氧化沟出水ρ(NO3^-)〈5.0 mg/L时,NO3^-较低导致在二沉池中进行了内碳源释磷反应,TP去除率随NO3^-的降低而降低;静态试验结果证明当ρ(NO3^-)〉0.5 mg/L时,NO3^-抑制磷的内碳源释放.NO3^-降低至0.5 mg/L以下时,发生内碳源释磷,比内碳源释磷速率为0.18-0.47 mg/(gVSS.h);某污水处理厂运行结果也证明,二沉池污泥停留时间过长,发生内碳源释磷致使出水TP升高. In order to study the effect of nitrate on the biological phosphorus removal, the anaerobic - anoxic - aerobic (A^2/O) oxidation ditch (OD) process was adopted to treat the municipal wastewater combined with the captive test for 4 months, meanwhile the operation data of an A^2/O oxidation ditch wastewater treatment plant were analyzed. The effect of nitrate on phosphorus release in the anaerobic zone and in the secondary clarifier was studied. The volume of the whole reactor was 375 L. The result indicated that with the effluent NO3 ^- of the OD more than 5.0 nag/L, the phosphorus release was restrained by NO3 ^- carried by the returned activated sludge, resulting in the decrease of TP removal rate with the increase of NO3 ^- in the effluent. When NO3 ^- in the effluent was less than 5.0 rag/L, the TP removal rate was decreased with the decrease of NO3 ^- in the effluent due to the phosphorus release happened in the low NO3 ^-condition with inner carbon resource acting as an electronic acceptor. The captive test indicated thai the phosphorus release with inner carbon resource acting as the electronic acceptor was restrained when NO3 ^- was more than 0. 5 mg/L in the secondary clarifier, while phosphorus was released with the inner carbon being the electronic acceptor when NO3 ^- was less than 0. 5 mg/L, and the specific phosphorus release rate was 0. 18 -0.47 nag/( gVSS · h). The operation result of the wastewater treatment plant indicated that retention time of the activated sludge in the secondary clarifier was so long that it would increase the effluent TP due to the phosphorus release with inner carbon resource.
作者 彭永臻 侯红勋 孙洪伟 马娟
机构地区 北京工业大学环能学院北京市水质科学与水环境恢复工程重点实验室
出处 《哈尔滨工业大学学报》 EI CAS CSCD 北大核心 2008年第8期1311-1314,1328,共5页 Journal of Harbin Institute of Technology
基金 国家自然科学基金海外青年学者合作研究基金资助项目(50628808) 国家高技术研究发展计划资助项目(2004AA601060) 北京市教委科技创新平台项目(PXM2008-014204-050843)
关键词 污水处理 A^2/O 氧化沟 生物除磷 NO3^- wastewater treatment A^2/O oxidation ditch biological phosphorus removal nitrate
分类号 X703 [环境科学与工程—环境工程]
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参考文献7

  • 1JANSSEN P M J,著.生物除磷设计与运行手册[M].祝贵兵,彭永臻,译.北京:中国建筑工艺出版社,200.
  • 2ROBERT J, MINO T, ONUKI M. The microbiology of biological phosphorus removal in activated sludge systems [ J ]. FEMS Microbiology Reviews, 2003 (27) : 99 - 127.
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哈尔滨工业大学学报
2008年 第8期

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