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反硝化生物滤池深度脱氮机理

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孙迎雪, 胡银翠, 孙云祥, 邵一如. 反硝化生物滤池深度脱氮机理[J]. 环境工程学报, 2012, 6(6): 1857-1862.
引用本文: 孙迎雪, 胡银翠, 孙云祥, 邵一如. 反硝化生物滤池深度脱氮机理[J]. 环境工程学报, 2012, 6(6): 1857-1862.
shu
Sun Yingxue, Hu Yincui, Sun Yunxiang, Shao Yiru. Denitrification biological filter as tertiary treatment for nitrogen removal[J]. Chinese Journal of Environmental Engineering, 2012, 6(6): 1857-1862.
Citation: Sun Yingxue, Hu Yincui, Sun Yunxiang, Shao Yiru. Denitrification biological filter as tertiary treatment for nitrogen removal[J]. Chinese Journal of Environmental Engineering, 2012, 6(6): 1857-1862.
shu

反硝化生物滤池深度脱氮机理

  • 1.

    北京工商大学环境科学与工程系,北京100048

  • 2.

    北京城建设计研究总院有限责任公司,北京100037

  • 基金项目:

    北京市教育委员会科技计划面上项目(KM201210011004)

    国家水体污染控制与治理科技重大专项(2008ZX07209-007)

  • 中图分类号: X703.1

Denitrification biological filter as tertiary treatment for nitrogen removal

  • 1.

    Department of Environmental Science and Engineering, Beijing Technology and Business University, Beijing 100048, China

  • 2.

    Beijing Urban Engineering Design & Research Institute Co., Ltd., Beijing 100037, China

  • Fund Project:

  • 摘要: 研究了反硝化生物滤池对污水中硝酸盐氮的脱氮机制及其影响因素。结果表明,在实验室小试条件下,反硝化生物滤池启动14 d后出水基本达到稳定,NO-3-N和TN的去除率分别为80%~88%和76%~80%,COD的去除率达到80%以上。稳定运行期,在室温20~29℃、水力负荷为1.5~2 m3/(m2·h)、COD/TN为3.7~4.5的条件下,反应器对NO-3-N和TN的去除率分别为70%~85%和47%~64%,且在运行过程中出现了少量NO-2-N的积累。分析反硝化生物滤池沿水流方向有机物浓度及氮形态分布发现,沿水流方向NH+4-N浓度基本保持不变;NO-2-N浓度在滤层底部至40 cm高处积累较为明显,其后浓度基本不变。
    Abstract: The mechanism of nitrogen removal from wastewater by denitrification biological filter (DNBF) and the related influencing factors were investigated. The results showed that the start–up period of the DNBF was performed when ran after 14 days, and the removal efficiencies of NO-3-N and TN were 80%~88% and 76~80%,respectively, while the removal efficiency of COD was over 80% in the laboratory-scale experiments. In stable running period of the DNBF reactor, the removal efficiency of NO-3-N and TN kept stable with the removal efficiency of 70%~85% and 47%~64%,respectively, when the water temperature was 20~29℃, hydraulic loading was 1.5~2 m3/(m2?h), and COD/TN was 3.7~4.5. Meanwhile, a little NO-2-N accumulated in the effluent of DNBF. The level of NH+4-N was approximately unchanged through the filter, while the level of NO-2-N accumulated from the bottom to 40 cm of the filter layer, and then kept stable.
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出版历程
  • 收稿日期:  2012-02-29
  • 刊出日期:  2012-07-05
孙迎雪, 胡银翠, 孙云祥, 邵一如. 反硝化生物滤池深度脱氮机理[J]. 环境工程学报, 2012, 6(6): 1857-1862.
引用本文: 孙迎雪, 胡银翠, 孙云祥, 邵一如. 反硝化生物滤池深度脱氮机理[J]. 环境工程学报, 2012, 6(6): 1857-1862.
shu
Sun Yingxue, Hu Yincui, Sun Yunxiang, Shao Yiru. Denitrification biological filter as tertiary treatment for nitrogen removal[J]. Chinese Journal of Environmental Engineering, 2012, 6(6): 1857-1862.
Citation: Sun Yingxue, Hu Yincui, Sun Yunxiang, Shao Yiru. Denitrification biological filter as tertiary treatment for nitrogen removal[J]. Chinese Journal of Environmental Engineering, 2012, 6(6): 1857-1862.
shu

反硝化生物滤池深度脱氮机理

  • 1. 北京工商大学环境科学与工程系,北京100048
  • 2. 北京城建设计研究总院有限责任公司,北京100037
  • 收稿日期:  2012-02-29
基金项目:

北京市教育委员会科技计划面上项目(KM201210011004)

国家水体污染控制与治理科技重大专项(2008ZX07209-007)

摘要: 研究了反硝化生物滤池对污水中硝酸盐氮的脱氮机制及其影响因素。结果表明,在实验室小试条件下,反硝化生物滤池启动14 d后出水基本达到稳定,NO-3-N和TN的去除率分别为80%~88%和76%~80%,COD的去除率达到80%以上。稳定运行期,在室温20~29℃、水力负荷为1.5~2 m3/(m2·h)、COD/TN为3.7~4.5的条件下,反应器对NO-3-N和TN的去除率分别为70%~85%和47%~64%,且在运行过程中出现了少量NO-2-N的积累。分析反硝化生物滤池沿水流方向有机物浓度及氮形态分布发现,沿水流方向NH+4-N浓度基本保持不变;NO-2-N浓度在滤层底部至40 cm高处积累较为明显,其后浓度基本不变。

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