颗粒污泥

  • 网络Granular sludge;EGSB;sludge granules;AGS
颗粒污泥颗粒污泥
  1. USB反应器中颗粒污泥反硝化特性

    Denitrification characteristics with granular sludge in USB reactor

  2. COD对颗粒污泥厌氧氨氧化反应性能的影响

    Effect of COD concentration on performance of anaerobic ammonium oxidation by granular sludge

  3. 合适的pH有利于提高颗粒污泥的脱氮性能,当pH值为7.8时,总氮去除率达最大值。

    When pH was 7.8 , TN removal efficiency reached the maximum .

  4. 发酵液的pH值接近中性时,厌氧颗粒污泥的耐氧活性最高。

    When environment pH was neutral , the oxygen tolerance was the highest .

  5. pH、温度和癸酸对厌氧颗粒污泥产甲烷毒性关系的研究

    Effects of pH and temperature on inhibition of capric acid to anaerobic granular sludge

  6. 好氧颗粒污泥同步硝化反硝化脱氮过程中N2O的产生

    The Generation of N_ ( 2 ) O with SND Aerobic Granular Sludge

  7. SBR反应器中好氧颗粒污泥培养及其除污性能

    Cultivation of aerobic granular sludge in SBR reactor and its decontamination capability

  8. 荧光定量PCR监测五氯酚对好氧颗粒污泥和活性污泥中氨氧化细菌数量的影响

    Real time PCR quantification of ammonia - oxidizing bacteria in aerobic granular sludge and activated sludge influenced by pentachlorophenol

  9. 利用FISH和DGGE对产甲烷颗粒污泥中微生物种群的研究

    Study on Microbial Community in Methanogenic Granular Sludge by FISH and DGGE

  10. 好氧颗粒污泥具有在高负荷下良好的COD去除率。

    Aerobic granular sludge demonstrates high activity and ability to withstand high COD loading rate .

  11. SBR中好氧颗粒污泥及其脱氮功能的研究进展

    Research on Aerobic Granular Sludge and Its Denitrification Function in Sequencing Batch Reactor

  12. 在pH值6~9范围内,好氧颗粒污泥理化性状稳定,没有发生解体现象。

    At pH value of 6 ~ 9 , the aerobic granule sludge physicochemical property was stable , without happening disintegration phenomenon .

  13. 颗粒污泥SBR系统更适合于在高有机负荷条件下运转。

    The granular sludge SBR is more suitable to operate under high organic loading .

  14. 试验中,好氧颗粒污泥对COD和TN表现出较理想的去除效果。

    In the test , the aerobic granular sludge removed COD and TN efficiently .

  15. 颗粒污泥SBR中试研究及颗粒污泥氧传质机理与胞外聚合物分析

    Pilot-Scale Study on Granular SBR , Oxygen Transfer Mechanism and EPS Analysis of Granular Sludge

  16. ABR处理垃圾渗滤液及其颗粒污泥的研究

    Study on Treatment of Landfill Leachate and Its Granular Sludge with ABR

  17. 有机负荷对ABR性能及其颗粒污泥的影响

    The Affect of ABR Performance and Granular Sludge at Various Organic Loading Rates

  18. UASB反应器中颗粒污泥的沉降性能与终端沉降速度

    The settling characteristics and terminal velocity of granular sludge in UASB reactor

  19. UASB工艺啤酒废水处理中颗粒污泥的培养

    Cultivation of Particulate Sludge in Treatment of Beer Wastewater by UASB Technology

  20. UASB反应器处理酒精废液颗粒污泥形成过程的研究

    The formation of granular sludge in the UASB reactor treating distillery wastewater

  21. 接种颗粒污泥UASB反应器处理味精&卡那霉素混合废水

    The study on treating mixed wastewater of glutamate and kanamycin in UASB

  22. UASB反应器的启动及厌氧颗粒污泥的特性研究

    Start-Ups of UASB Reactors and Characters of Anaerobic Granular Sludge

  23. 研究了IC反应器的快速启动方法和启动过程中颗粒污泥性质。

    The quick start-up of the laboratory scale IC reactor and the characteristics of granular sludge during start-up were studied in this paper .

  24. 在启动期,IC反应器产气量很小,尚不能形成对颗粒污泥的有效搅动,传质过程主要受水力上升流速的控制。

    Previous study showed that at the initial stage of startup the biogas in IC reactor could not stir up the granular sludge .

  25. SEM观察到了颗粒污泥表层的结块现象,胞外聚合物显著增多。

    An agglomerate phenomenon on the surface layer of the granular sludge with a significant increment of exocellular polymeric substance was observed by SEM .

  26. 好氧颗粒污泥具有很高的生物活性,污染物质在曝气1h内相当大一部分被去除。

    AGS have high biological activity and most of the pollutant is removed in 1h after aeration .

  27. 降解五氯酚(PCP)的微氧颗粒污泥的形成机理

    The granulation mechanism of micro-aerobic granules for PCP degradation

  28. 据此,分析了ABR中颗粒污泥的形成机理。

    Finally , the formation mechanism of granulation of anaerobic sludge in ABR was analysed .

  29. 由于进水COD容积负荷先升高后降低,污泥浓度和颗粒污泥的质量百分含量随之呈现出先升高后降低的趋势。

    The concentration and percentage of granular sludge increased first and then decreased with the same change of influent COD volume loading .

  30. 扫描电镜(SEM)观察结果显示,在苯酚的影响下,短程硝化颗粒污泥中的主要菌群由球菌转化为丝状菌。

    Scanning electron microscope ( SEM ) revealed that the dominant bacteria were transformed from cocci bacteria into filamentous bacteria under the influence of phenol .