氧化沟

  • 网络oxidation ditch;SBR
氧化沟氧化沟
  1. RBF神经网络氧化沟系统出水氮磷预报模型

    RBF Neural Network Modeling of Effluent TN and TP in Oxidation Ditch System

  2. 基于免疫原理的RBF网络Carrousel氧化沟系统预报

    Immune principle for RBF network and its application on Carrousel oxidation ditch system prediction

  3. DE型氧化沟生物脱氮除磷工艺

    On biological de nitrification and de phosphorus by de type oxidation ditch

  4. 猪场废水IC厌氧&三沟式氧化沟工艺技术研究

    Technological Research of IC Anaerobic-Triple Oxidation Ditch for Piggery Wastewater

  5. 改良型DE氧化沟工艺的除磷脱氮探讨

    Discussion on the Modified DE Oxidation Ditch Process for Nitrogen and Phosphorus Removal

  6. DE氧化沟工艺城市污水处理厂快速启动研究

    Study on Quick Start-up of Municipal Wastewater Treatment Plant with DE Oxidation Ditch Craft

  7. 基于CAN总线的一体化氧化沟DCS(集散控制系统)研究

    Studies in Integrated Oxidation Ditch DCS ( Distributed Control System ) CAN-Based

  8. DE型氧化沟去除有机物及营养物质的特性研究

    Study on the characteristics of removing organic substance and nutrient substance with DE oxidation ditch

  9. DE型氧化沟系统处理城市污水的效果

    DE Oxidation Ditch Treating Urban Wastewater

  10. DE型氧化沟的脱氮、除磷过程

    A study on the process of nitrogen and phosphorus removal in the DE type oxidation ditch

  11. 污泥回流和前置区T(HR)对氧化沟N、P去除的影响

    Influence of Returned Sludge and T_ ( HR ) in the Pre-zone on Nitrogen and Phosphorus Removal in Oxidation Ditch

  12. Carrousel氧化沟系统出水COD预报的神经网络模型

    The ANN Model Predicting Effluent COD of Carrousel Oxidation Ditch System

  13. 本文针对以三沟式氧化沟为主体的污水处理厂的工艺流程和控制要求,设计了基于PLC和现场总线的计算机自动控制系统。

    A computer control system with PLC and field bus is developed based on oxidation ditches in a sewage processing plant is introduced in this paper .

  14. UASB-改良式氧化沟-物化工艺处理高得率APMP浆废水

    Treatment of UASB-improved oxidation ditch-flocculation process on high yield APMP pulping wastewater

  15. 内循环UASB反应器-氧化沟工艺处理脱墨废水的研究

    Study on the treatment of deinking wastewater by inside circulating UASB reactor + oxidation ditch process

  16. 本文简单介绍了几种当前在我国已得到广泛使用处理工艺,如氧化沟工艺、SBR反应器等。

    This paper briefly introduces several techniques widely used in our country , such as oxidation ditch technology , SBR reactor , etc.

  17. 对制革综合废水处理技术的发展趋势进行展望,氧化沟和SBR法是适合我国制革废水特点的处理工艺。

    It is also believed that oxidation ditch and SBR is suitable for the treatment of waste water from domestic tannery enterprise .

  18. AAC氧化沟工艺中污泥上浮的原因与控制

    Cause and controlling measures of floating upward of sludge in AAC oxidation ditch process

  19. 济南市水质净化二厂设计规模为20×104m3/d,采用了DE型双沟式氧化沟工艺。

    The Second Wastewater Treatment Plant in Jinan City uses the oxidation ditch process and its design capacity is 20 × 10 ~ 4 m ~ 3 / d.

  20. Carrousel氧化沟中的同时硝化/反硝化(SND)现象研究

    Study on Simultaneous Nitrification and Denitrification ( SND ) in Carrousel Oxidation Ditch

  21. 改良微孔Carrousel氧化沟工艺脱氮除磷

    Improved micropore Carrousel oxidation ditch process for phosphorous and nitrogen removal

  22. 氧化沟工艺段对NP和BPA的去除率分别为25.3%和44.9%。

    The removal rates of NP and BPA in the oxidation ditch process are 25.3 % and 44.9 % , respectively .

  23. 我们采用基于CAN总线结构的污水处理DCS(集散控制系统)模型构建一体化氧化沟的整个控制系统。

    We construct the whole control system for the integrated oxidation ditch by using the model of sewage treatment DSC , which is based on CAN bus .

  24. 污水处理厂Carrousel氧化沟工艺研究

    Research on Carrousel Oxidation Channel Technology in Sewage Treatment Plant

  25. Carrousel氧化沟DO仪测量方位的调整及效果

    Adjustment of DO Meter Position in Carrousel Oxidation Ditch and Its Effect

  26. 改良型Carrousel氧化沟沉泥问题的解决办法

    Solution of Sludge Deposit in Modified Carrousel Oxidation Ditch

  27. Carrousel氧化沟处理工业和生活混合污水的应用

    Application of Carrousel oxidation ditch process in treatment of industral and municipal sewage

  28. 改良型Carrousel氧化沟的运行与改造

    Operation and Reconstruction of Improved Carrousel Oxidation Ditch

  29. Carrousel氧化沟的流动特性研究

    Study on flow characteristic of Carrousel oxidation ditch

  30. 氧化沟系统的溶解氧控制具有多变量、大时滞的特点,采用PID或者简单模糊方式难以进行简捷和有效的控制。

    Control of dissolved oxygen ( DO ) in oxidation ditch system involves several variants with great time lag , which makes it ineffective to adopt PID approach or simple fuzzy technology for DO control .