CIESC Journal ›› 2013, Vol. 64 ›› Issue (6): 2201-2207.DOI: 10.3969/j.issn.0438-1157.2013.06.040

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Effect of nitrite on denitrifying phosphorous removal metabolism and N2O production by PAOs

MIAO Zhijia, XUE Guisong, WENG Dongchen, CAO Guihua, PENG Yongzhen   

  1. Key Laboratory of Beijing for Water Quality Science and Water Environmental Recovery Engineering, Engineering Research Center of Beijing, Beijing University of Technology, Beijing 100124, China
  • Received:2012-10-09 Revised:2012-11-19 Online:2013-06-05 Published:2013-06-05
  • Supported by:

    supported by the Specialized Research Fund For the Doctoral Program of Higher Education(20111103130002),the National Natural Science Foundation of China(51008005) and the Project of Scientific Research Base and Scientific Innovation Platform of Beijing Municipal Education Commission.

亚硝酸盐对聚磷菌反硝化除磷代谢及N2O产生的影响

苗志加, 薛桂松, 翁冬晨, 曹贵华, 彭永臻   

  1. 北京工业大学北京市水质科学与水环境恢复工程重点实验室,北京市污水脱氮除磷处理与过程控制 工程技术研究中心,北京 100124
  • 通讯作者: 彭永臻
  • 作者简介:苗志加(1984—),男,博士研究生。
  • 基金资助:

    高等学校博士学科点专项科研基金(20111103130002);国家自然科学基金项目(51008005);北京市教委科技创新平台项目。

Abstract: The impact of nitrite (44.64, 70.3, 94.33, 112.36 mg NO2--N·L-1) on denitrifying phosphorus removal metabolism was investigated by using 92%±3% polyphosphate accumulation organisms domesticated in acetate/propionic acid for 340 d.The results showed that denitrifying phosphorus removal metabolism also occurred when nitrite was used as electron acceptor at first, and the metabolism was inhibited when the concentration of nitrite increased.Nitrite reduction rate, phosphorus uptake rate and PHA degradation rate all reduced with initial nitrite increasing, and the complete inhibition concentration was higher than 112.36 mg NO2--N·L-1.Nitrite reduction rate and phosphorus uptake rate were 2.61 mg NO2--N·(g MLSS) -1·h-1 and 3.0 mg PO43--P·(g MLSS) -1·h-1 at initial 112.36 mg NO2--N·L-1.N2O was produced in the denitrifying phosphorus removal process.Initial nitrite stimulated nitrite reduction to exceed N2O reduction rate, resulting in greater quantities of N2O production.The proportion of N2O-N/TN were 63.5%, 49.0%, 30.2%, 24.0% respectively corresponding to initial concentration of 44.64, 70.3, 94.33, 112.36mg NO2--N·L-1.The accumulation of N2O could be transformed to N2 in order to improve denitrification when the system had enough substrate and extended anoxic mixing time.

Key words: PAOs, nitrite, denitrifying phosphorus removal, N2O, EBPR

摘要: 以乙酸钠/丙酸交替为碳源的强化生物除磷(enhance biological phosphorus removal, EBPR)系统为研究对象,母反应器内种泥在厌氧/好氧的运行条件下已培养340 d,聚磷菌富集纯度达到92%±3%,考察了不同浓度亚硝酸盐氮(44.64、70.3、94.33、112.36 mg NO2--N·L-1)为电子受体对聚磷菌缺氧吸磷代谢的影响。结果表明,从未经缺氧驯化的高纯度聚磷菌也可以进行反硝化除磷代谢。在缺氧反应过程中NO2--N还原速率、PO43--P吸收速率、PHA降解速率随着亚硝酸浓度升高呈下降趋势,但是在初始亚硝酸盐氮浓度最高为112.36 mg NO2--N·L-1条件下,代谢并未停止,此时亚硝酸盐还原速率与磷酸盐吸收速率仍可以分别达到2.61 mg NO2--N·(g MLSS)-1·h-1和3.0 mg PO43--P·(g MLSS)-1·h-1。聚磷菌在以细胞内PHA作为碳源以NO2--N作为电子受体反硝化除磷代谢过程中,由于初始亚硝酸盐的抑制作用使NO2--N还原速率大于N2O还原速率,从而产生大量的N2O积累。初始投加NO2--N浓度为44.64、70.3、94.33、112.36 mg NO2--N·L-1时,产生的N2O占TN的比例分别为63.5%、49.0%、30.2%、24.0%。在底物充足的条件下,代谢中积累的N2O可以通过延长缺氧搅拌时间,使其转化为N2

关键词: 聚磷菌, 亚硝酸盐, 反硝化吸磷, N2O, EBPR

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