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碳源和硝态氮浓度对反硝化聚磷的影响及ORP的变化规律 被引量:64

Effect of Carbon Source and Nitrate Concentration on Denitrifying Dephosphorus Removal and Variation of ORP
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摘要 利用间歇试验研究了反硝化除磷过程中有机碳源和硝态氮浓度对厌氧放磷和缺氧吸磷的影响 ,同时对反硝化除磷过程ORP的变化规律及以其作为控制参数的可行性作了探讨 .试验结果表明 :厌氧段碳源COD浓度越高 (1 0 0~ 30 0mg/L) ,放磷越充分 ,则缺氧段反硝化和吸磷速率越大 ;但当碳源COD浓度高达 30 0mg/L时 ,未反应完全的有机物残留于后续缺氧段对缺氧吸磷产生抑制作用 .随着缺氧段硝态氮浓度升高 (5、1 5、4 0mg/L) ,反应初期反硝化和吸磷速率也随之升高 ;当硝态氮耗尽后 ,系统由缺氧吸磷转变为内源放磷 ,且随着初始硝态氮浓度的增高 ,这个转折点的出现时间向后延迟 .ORP可作为厌氧放磷的控制参数 ,在缺氧吸磷过程可预示反硝化的反应程度 。 Effect of added carbon source and nitrate concentration on the denitrifying phosphorus removal by SBR process was systematicaly studied, at the same time the variation of oxidation reductiun potential(ORP) was investigated. The results showed the phosphate release rate and the denitrifying and dephosphorus uptake rate in anoxic phase increased with the high carbon source concentration under anaerobic condition (100~300mg/L). However when the carbon source added in anaerobic phase was high to 300mg/L, the residual COD inhibited the succeed denitrifying dephosphorus uptake. High nitrate concentration (5、15、40 mg/L)in anoxic phase increased the initial denitrifying dephosphorus rate. Once the nitrate depletes, phosphate uptake changed to phosphate release. Moreover,the time of the turning point occurred later with the higher nitrate addition.ORP can be used as a control parameter of phosphorus release, and it can also indicate the denitrificaiton react degree during the anoxic phosphorus removal but can't be used as control parameter of phosphorus uptake.
作者 王亚宜 彭永臻 王淑莹 宋学起 王少坡
机构地区 哈尔滨工业大学市政环境工程学院 北京工业大学环境与能源学院 北京工业大学环境与能源学院
出处 《环境科学》 EI CAS CSCD 北大核心 2004年第4期54-58,共5页 Environmental Science
基金 国家"8 63"重大科技专项 ( 2 0 0 3AA60 10 10 ) 北京市教委重点项目 (KZ2 0 0 3 10 0 0 5 0 0 3 )
关键词 反硝化除磷 反硝化聚磷菌 氧化还原电位 COD 硝态氮浓度 denitrifying dephosphorus removal denitrifying phosphate-accumulating organisms(DNPAOs) ORP COD nitrate
分类号 X703.1 [环境科学与工程—环境工程]
  • 相关文献

参考文献6

  • 1[1]Kuba T, M C M Van Loosdrecht, et al. Phosphorus Removal From Wastewater By Anaerobic-anoxic Sequencing Batch Reactor[J]. Wat. Sci. Tech., 1993, 27(5~6): 241~252.
  • 2[2]Bortone G,et al. Anoxic Phosphate Uptake in The Dephanox Process[J]. Wat. Sci. Tech., 1999, 4~5(40): 177~180.
  • 3[3]Georg Schon, Susanne Geywitz, Frank Mertens.Infuence of Dissolved Oxygen and oxidation-reduction potential on Phosphorus Release and Uptake by Activated Sludge from Sewage Plants with Enhanced Biological Phosphorus Removal[J]. Wat. Res., 1993, 27(3): 349~354.
  • 4王亚宜,彭永臻,王淑莹,李勇智,潘绵立.反硝化除磷理论、工艺及影响因素[J].中国给水排水,2003,19(1):33-36. 被引量:94
  • 5阮文权,邹华,陈坚.乙酸钠为碳源时进水COD和总磷对生物除磷的影响[J].环境科学,2002,23(3):49-52. 被引量:22
  • 6[6]Kuba T, M C M Van Loosdrecht, et al. Biological Dephosphatation by Activated Sludge Under Denitrifying Conditions: pH Influence and Occurrence of Denitrifying Dephosphatation in A Full-Scale Waste Water Treatment Plant[J]. Wat. Sci. Tech., 1999, 36(12): 75~82.

二级参考文献13

  • 1许晓路,申秀英.活性污泥生物除磷机制及其影响因素[J].农业环境与发展,1994,11(3):25-28. 被引量:4
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  • 3[1]Jens Peter,Keren-Jespersen,Mogens Henze,et al.Biological phosphorus release and uptake under alternation anaerobic and anoxic conditions in a fixed-film reactor[J].Wat Res,1993,27(4):617-624.
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  • 5[3]Wachtmeister A,Kuba T.A sludge characterization assay for aerobic and denitrifying phosphorus removing sludge[J].Wat Res,1997,31(3):471-478.
  • 6[4]Kuba T,Van Loosdrecht M C M.Occurrence of denitrifying phosphorus removal bacteria in modified UCT-type waste water treatment plants[J].Wat Res,1997,31(4):777-786.
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  • 8[6]Jens Peter,Keren Jespersen,Mogens Henze.Biological phosphorus uptake under anoxic and aerobic conditions[J].Wat Res,1994,28(5):1253-1255.
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  • 10[8]Kuba T,Wachameister A,Van Loosdrecht M C M.Effect of nitrate on phosphorus release in biological phosphorus removal system[J].Wat Sci Tech,1994,30(6):263-269.

共引文献113

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引证文献64

二级引证文献369

环境科学
2004年 第4期

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