稳定塘

  • 网络stabilization pond;WSP
稳定塘稳定塘
  1. 稳定塘的扩散系数D与BOD动力学常数K的研究

    A Study on Diffussion Coefficient D and BOD Kinetic Constant K of Waste Stabilization Ponds

  2. 稳定塘藻类生长规律及其影响的中试研究

    Pilot Scale Study on the Growth of the Algae in Stabilization Ponds

  3. EM技术容易操作,处理费用低廉,是废水稳定塘治理的一种新方法、新技术。

    It is a new method and technic for wastewater stabilization pond .

  4. 污水稳定塘菌-藻生态系统去除与灭活植物病毒TMV研究

    Removal and inactivation of TMV by bacteria-algal ecosystem in a wastewater stabilization pond

  5. 通过人工控制下的实验室内静态模拟,研究了稳定塘污泥降解过程中的pH值变化趋势、有机物浓度、淤积时间、温度对污泥降解速率的影响以及污泥降解的数学模型。

    Through static simulation in laboratory under artificial control , sludge degradation model and its effects caused by pH value trend , organism concentration , deposition time and temperature were studied .

  6. 结果表明,16℃时污水在日进污水10t的模拟稳定塘系统停留9天后,TC与FC的密度下降4个数量级。

    In the system treating 10 t of wastewater per day , the densities of TC and FC decreased by 4 orders of magnitude in 9 days at 16 ℃ .

  7. 华北稳定塘各塘底泥耗氧速率(SOD)值范围在0.78~2.2271g/m~2·d之间。

    The rate of bottom sediment oxygen demand of stable ponds in North China was discussed in the paper . It was found that SOD value decreased with sewage treatment and purification . SOD values of all ponds ranged between 0.798g/m2 ?

  8. 猪场稳定塘废水的IBAF脱氮影响因素研究

    Study on the Biological Nitrogen Removal of Swine Lagoon Wastewater by IBAF System

  9. 本文研究了模拟稳定塘系统去除污染指示菌如总大肠菌群(TC),粪大肠菌群(FC),粪链球菌(FS)以及异养细菌(HPC)的作用。

    In this paper , the removal efficiencies of total coliforms ( TC ), fecal coliforms ( FC ), fecal streptococcus ( FS ) and heterotrophic plate count ( HPC ) in simulated stabilization pond systems were studied .

  10. 利用藻菌共生处理污水的工艺包括传统稳定塘、高效率藻类塘(HRAP)、活性藻工艺和固定化藻菌共生处理系统等。

    The algal-bacterial symbiotic wastewater treatment processes include traditional oxidation pond process , high rate algae pond ( HRAP ), " Activated Algae " process , and immobilized algal - bacterial symbiotic treatment system .

  11. 污水稳定塘沉积分布的水动力学模型研究

    Study on hydro dynamic model of deposition in sewage stabilizing ponds

  12. 过滤&稳定塘法处理印染废水的工程实践

    The Project Practice of Processing Printing Waste-water by Filtration-stable Pond Way

  13. 石化废水稳定塘系统下渗对地下水的影响

    The Impact of the Petrochemical Wastewater Stabilization Pond System on Groundwater

  14. 稳定塘离散进料数学模型的研究

    Study on Mathematical Model of Dispersed Input of Stabilization Pond

  15. 应用厌氧接触发酵和稳定塘工艺处理小型肉联厂废水

    The Treatment of Small-sized Slaughterhouse Sewage with Anaerobic Contact and Stabilization Process

  16. 高效藻类塘是在传统稳定塘的基础上发展起来的极具推广价值的污水处理技术。

    High-rate algae pond is developed from conventional stabilization pond .

  17. 生物稳定塘生态系统的研究现状评述

    Review of the Current Studies on the Ecosystem of Waste Stabilization Pond

  18. 厌氧-接触氧化-稳定塘工艺处理化工制药废水

    Treatment of Pharmaceutical Wastewater by Anaerobic-Contact Oxidation and Stabilization Pond

  19. 稳定塘污水处理技术的应用现状与发展

    Present situation of application and development of stabilization pond sewage treatment technology

  20. 稳定塘对制浆废水中羟基芳族化合物去除的试验研究

    Study on removal of hydroxy aromatics from pulp wastewater by stabilization pond

  21. 稳定塘用于石化废水尾水处理的中试研究

    Application of Stabilization Pond to Treatment of Tail Water of Petrochemical Wastewater

  22. 稳定塘对地下水影响耦合功能模型的研究进展

    Study on Combined Functional Model of Effect on Stabilization Pond System on Groundwater

  23. 稳定塘的数学模型和技术参数

    Mathematical Models and Technical Parameters for Wastewater Stabilization Ponds

  24. 综合生物塘系统是一种新型稳定塘系统。

    Synthetic biological pond system is a new type of stabilization pond system .

  25. 汉沽生物稳定塘建于1993年。

    Hangu biological stabilization pond was set up in1993 .

  26. 稳定塘改进措施研究进展

    Research Progress on the Advancement of Wastewater Stabilization Pond

  27. 废水稳定塘串联组合系统在冲击负荷下的试验与数学模拟

    Test and Simulation of Multi-stage Stabilization Ponds in the Condition of Transient Load

  28. 稳定塘中氧传递规律研究

    The Study on Oxygen Transmission Law in Stabilization Pond

  29. 生物稳定塘水流特征的研究

    A study on the hydraulics of waste stabilization pond

  30. 高级综合稳定塘处理养猪场废水

    Treatment of piggery wastewater by advanced integrated pond system