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首页> 外文期刊>Environment protection engineering >CARBON AND NUTRIENT REMOVAL FROM DOMESTIC WASTEWATERS IN A MODIFIED 5-STAGE BARDENPHO PROCESS VIA FUZZY MODELING APPROACH
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CARBON AND NUTRIENT REMOVAL FROM DOMESTIC WASTEWATERS IN A MODIFIED 5-STAGE BARDENPHO PROCESS VIA FUZZY MODELING APPROACH

机译:通过模糊建模方法在经过改进的5阶段Bardenpho过程中从国内废水中的碳和养分去除

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摘要

Gradual increase in the generation of wastewater results from the increasing global population. Thus, new treatment techniques and systems for controlling the treatment process depending on wastewater characteristics are desirable. This paper presents the use of a pilot-scale modified five-stage Bardenpho process with a 10 m(3)/day capacity for the treatment of real municipal wastewater. The process was developed for this study, and the steady-state removal efficiencies for COD (chemical oxygen demand), TKN (total Kjeldahl nitrogen), NH43--P (ammonium nitrogen), PO4-3-P (phosphate phosphoms), SS (suspended solids), and VSS (volatile suspended solids) were 87 +/- 5%, 86 +/- 12%, 93 +/- 14%, 89 +/- 9%, 88 +/- 8%, 94 +/- 4%, and 94 +/- 4%, respectively. In the study, the effluent COD, TKN, and TP concentrations were also estimated using a fuzzy logic approach. The results showed that coefficients of determination are higher than 0.80 suggesting that the presented fuzzy logic approach may confidently be used for the estimation of the treatment performance.
机译:逐步增加了越来越多的全球人口产生的废水。因此,期望根据废水特性控制处理过程的新处理技术和系统。本文介绍了使用试验规模改性的五阶段BARDENPHO工艺,以10米(3)/天的处理能力治疗真实的城市废水。该方法是为本研究开发的,以及COD(化学需氧量),TKN(总KjELDAHL氮气),NH43 - P(氮氮),PO4-3-P(磷酸磷),SS的稳态去除效率(悬浮的固体)和VSS(挥发性悬浮固体)为87 +/- 5%,86 +/- 12%,93 +/- 14%,89 +/- 9%,88 +/- 8%,94 + / - 4%和94 +/- 4%。在研究中,还使用模糊逻辑方法估计流出物COD,TKN和TP浓度。结果表明,确定系数高于0.80,表明所提出的模糊逻辑方法可以自信地用于估计治疗性能。

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  • 来源
    《Environment protection engineering》 |2019年第1期|5-16|共12页
  • 作者

    Demir Neslihan Manav; Yildirim Asuman; Coskun Tamer; Canbolat Cigdem Balcik; Debik Eyup;

  • 作者单位

    Yildiz Tech Univ Fac Civil Engn Environm Engn Dept TR-34220 Istanbul Turkey;

    Yildiz Tech Univ Fac Civil Engn Environm Engn Dept TR-34220 Istanbul Turkey;

    Yildiz Tech Univ Fac Civil Engn Environm Engn Dept TR-34220 Istanbul Turkey;

    Yildiz Tech Univ Fac Civil Engn Environm Engn Dept TR-34220 Istanbul Turkey;

    Yildiz Tech Univ Fac Civil Engn Environm Engn Dept TR-34220 Istanbul Turkey;

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