XU Wenlai, ZHANG Jianqiang, LIU Yun. NH3-N Degradation Dynamics and Calculating Model of Filtration Bed Height in Constructed Soil Rapid Infiltration[J]. Chinese Geographical Science, 2011, 21(6): 637-645.
Citation: XU Wenlai, ZHANG Jianqiang, LIU Yun. NH3-N Degradation Dynamics and Calculating Model of Filtration Bed Height in Constructed Soil Rapid Infiltration[J]. Chinese Geographical Science, 2011, 21(6): 637-645.

NH3-N Degradation Dynamics and Calculating Model of Filtration Bed Height in Constructed Soil Rapid Infiltration

  • Publish Date: 2011-11-04
  • The research on Constructed Soil Rapid Infiltration (CSRI) system is in its infancy at home and abroad. There are several
    details about the mechanism and application of CSRI system needed to be further studied. A major limitation in the current research is
    the absence of degradation dynamics of pollutants, and the height of filtration bed in CSRI system currently determined by empirical
    judgment lacks accuracy and logicality. To solve these two problems, the soil column of CSRI system was utilized to treat domestic
    wastewater, meanwhile, the NH3-N degradation dynamics were studied according to the Monod equation, the research of Mann A T and
    the NH3-N degradation law. Then the mathematical model of filtration bed height was built based on NH3-N degradation dynamics
    equation in the soil column. It has been proven that within a limited range this model can calculate the appropriate height of filtration bed
    accurately in order to optimize technological parameters of hydraulic load and the concentration of influent NH3-N, improving the effluent
    quality of CSRI system.
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通讯作者: 陈斌, bchen63@163.com
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    沈阳化工大学材料科学与工程学院 沈阳 110142

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NH3-N Degradation Dynamics and Calculating Model of Filtration Bed Height in Constructed Soil Rapid Infiltration

Abstract: The research on Constructed Soil Rapid Infiltration (CSRI) system is in its infancy at home and abroad. There are several
details about the mechanism and application of CSRI system needed to be further studied. A major limitation in the current research is
the absence of degradation dynamics of pollutants, and the height of filtration bed in CSRI system currently determined by empirical
judgment lacks accuracy and logicality. To solve these two problems, the soil column of CSRI system was utilized to treat domestic
wastewater, meanwhile, the NH3-N degradation dynamics were studied according to the Monod equation, the research of Mann A T and
the NH3-N degradation law. Then the mathematical model of filtration bed height was built based on NH3-N degradation dynamics
equation in the soil column. It has been proven that within a limited range this model can calculate the appropriate height of filtration bed
accurately in order to optimize technological parameters of hydraulic load and the concentration of influent NH3-N, improving the effluent
quality of CSRI system.

XU Wenlai, ZHANG Jianqiang, LIU Yun. NH3-N Degradation Dynamics and Calculating Model of Filtration Bed Height in Constructed Soil Rapid Infiltration[J]. Chinese Geographical Science, 2011, 21(6): 637-645.
Citation: XU Wenlai, ZHANG Jianqiang, LIU Yun. NH3-N Degradation Dynamics and Calculating Model of Filtration Bed Height in Constructed Soil Rapid Infiltration[J]. Chinese Geographical Science, 2011, 21(6): 637-645.

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